B. Review MS-4 Nondegradation Report and Stormwater Projects
CITY OF
CHANIlASSEN
7700 Market Boulevard
PO Box 147
Chanhassen, MN 55317
Administration
Phone: 952.227.1100
Fax: 952.2271110
Building Inspections
Phone: 952.2271180
Fax: 952.227.1190
Engineering
Phone: 952.227.1160
Fax: 952.2271170
Finance
Phone: 952.2271140
Fax: 952.2271110
Park & Recreation
Phone: 952.227.1120
Fax: 952.2271110
Recreation Center
2310 Coulter Boulevard
Phone: 952.2271400
Fax: 952.227.1404
Planning &
Natural Resources
Phone: 952.227.1130
Fax: 952.2271110
Public Works
1591 Park Road
Phone: 952.2271300
Fax: 952.227.1310
Senior Center
Phone: 952.227.1125
Fax: 952.2271110
Web Site
www.ci.chanhassen.mn.us
# .1
8
- ) ,~
MEMORANDUM
TO:
."r"' O.
Paul Oehme, Director of Public Works/City Engineer \(,
FROM:
Terrance Jeffery, Water Resources coordinatorY .~ '
January 28,2008
DATE:
SUBJ:
Review MS-4 Nondegradation Report/ReviewStormwater Projects
for 2008 - SWMP15B
SUMMARY
This is intended to be an informational meeting which will allow staff to present
the Nondegradation Plan to City Council and discuss the implications of this plan
for the City of Chanhassen. A public hearing was held atthe January 15,2008
Planning Commission. The City of Chanhassen was required to submit the
nondegradation Plan to the Minnesota Pollution Control Agency in compliance
with the NPDES Phase II permit as revised June 1,2006 by February 1,2008.
Staff has communicated with the MPCA a request to extend the deadline to
February 12, 2008. A final decision was not made by the MPCAalthough they
were generally receptive to the proposed extension.
BACKGROUND
In June of 2006, the Minnesota Pollution Control Agency (PCA) issued>Pennit
No. MNR040000 - General Permit Authorization to Discharge Storm\Vater
Associated with Municipal Separate Storm Sewer Systems (MS4).Amol1ggther
items, this permit identified 30 select cities which are required to develop a
Nondegradation Assessment and Implementation Plan withinacertaiIltillle
frame. These communities are referred to as "Selected MS4s". Theselecti01l0f
these communities was based upon population growthexperiencedorproject~dtb
be experienced for three time frames: 1990 to 2000; from 2000 to 2003 and from
2000 to 2020. The City of Chanhassen is required to submit theirnondegradation
assessment plan within 20 months (February 1, 2008) from the date of issuance of
the above-referenced permit. The City has requested an extension of the
submittal date to February 12, 2008 to allow for coordination with scheduled City
meetings.
Wenck Associates, Inc. was contracted to complete the Nondegradation Plan on
October 31,2006. A draft of the plal1has byenattacped for your review. The
Nondegradation Plan was presented to the Planning Commission on January 15,
2008 and public comment was received at this time.
The City of Chanhassen · A growing community with clean lakes, quality schools, a channing downtown, thriving businesses, winding trails, and beautiful parks. A great place to live, work, and play.
Paul Oehme
Review of Nondegradation ReporUStormwater Projects
January 28,2008
Page 2
Copies of the Nondegradation Plan have been sent to Riley-Purgatory-Bluff Creek
Watershed District, Lower MN River Watershed District, Carver County
Watershed Management Organization, Minnehaha Creek Watershed District and
the Metropolitan Council Environmental Services. The Plan has also been made
available on the City's website and printed copies are available at City Hall.
Written comments have been received from the Metropolitan Council
Environmental Services and seven Chanhassen Residents. These comments have
been included for your review and consideration. Staff and a representative from
Wenck will be making a short presentation on the assessment findings and
subsequent timeline of events.
NONDEGRADA TION REQUIREMENTS
The selected MS4s are required to assess changes in base loading of three
parameters to their waters from 1988 loading levels. These three parameters are
total stormwater volume, total suspended solids (TSS) and total phosphorus (TP).
If new or expanded discharges are found to exist or to be likely to exist, the City
of Chanhassen must develop a nondegradation plan which will need to be
developed and submitted to the PCA identifying what reasonable and practical
best management practices (BMPs) the City will implement to reduce these
discharges to the 1988 levels. These BMPs will be incorporated as revisions to
the existing Storm Water Pollution Prevention Plan (SWPPP) for the City of
Chanhassen.
SUMMARY OF NONDEGRADA TION FINDINGS
The City of Chanhassen has already implemented a number of policies and
practices which have aided in the reduction of pollutant loading to area waters.
These include street sweeping, reforestation measures, tree preservation, planning
tools such as density transfer and the Bluff Creek Overlay District, and others. As
a result, the City is projected to meet nondegradation requirements for total
phosphorus and total suspended solids for the City as a whole. However, there
are individual watersheds which will not meet nondegradation requirements for
TSS and TP. These areas include Lake Ann which has experienced minimal
development to date but, based upon proposed land uses through 2020, will
undergo land use changes which will affect the loading of Lake Ann. The Riley,
Purgatory and Bluff Creek Watersheds will also not meet nondegradation
requirements. This is not inconsistent with the fact that many of these waters are
listed as impaired by the PCA. The PCA has yet to determine if the assessments
will be applied on a citywide basis or on a per watershed basis.
The City will not meet the nondegradation requirements for total stormwater
volume. As areas within Chanhassen are converted to an urbanized land use the
amount of impervious surface increases and there is a net reduction in native
vegetation. Vegetation acts to intercept rainfall before it reaches the ground and
g:\eng\swmp projects\swmp15b - nondegradation\012808 ws review ofnondeg report.doc
Paul Oehme
Review of Nondegradation ReporUStormwater Projects
January 28, 2008
Page 3
becomes runoff. This process is referred to as abstraction. Additional,
construction activities compact the soils and this soil compaction decreases the
ability of water to seep (or infiltrate) into the soil and increases the amount of
stormwater that runs off the site. This overall increase in impervious surface and
decrease in native vegetation results in an increase in total runoff volume.
Impacts from this increase in runoff are evidenced by the accelerated erosion
within Bluff Creek and the bouncing (fluctuation) of Lake Level in Chanhassen
Lakes.
IMPLICA TIONS FOR CHANHASSEN
The City is required to submit a Nondegradation Plan to the MPCA by February
1,2008. Prior to submittal to the PCA, the City is required to publicly notice the
proposed SWPPP revisions as related to the Nondegradation Report and
Implementation Plan and the Nondegradation Report and Implementation Plan
must be made available to the public and to local water authorities, including the
Lower Minnesota River Watershed District, the Riley-Purgatory-Bluff Creek
Watershed District, the Minnehaha Creek Watershed District, and the Carver
County Watershed Management Organization.
By permit directive, the City must "consider alternatives, explain which
alternatives have been studied but rejected and why, and propose alternatives that
are reasonable and practical. The report must give high priority to BMPs (best
management practices) that address impacts of future growth such as ordinances
for new development." This language recognizes the difficulties with retrofitting
stormwater management techniques into developed areas and that changes are
better suited to new development where land use constraints aren't as pronounced.
Upon approval of the Nondegradation Plan by the PCA, the City will need to
begin revising their Stormwater Pollution Prevention Plan (SWPPP) to
incorporate changes in practice, policy and education necessary to bring those
areas which will not meet nondegradation requirements to a level consistent with
1988 loading. The staff will continue to work with local water authorities, City
Council and Planning Commission to determine how to best achieve the desired
outcomes.
The proposed SWPPP revisions within the Nondegradation Plan direct the City to
begin the due diligence necessary to determine which, if any, code changes are
necessary; what existing practices can be incorporated into the SWPPP; what
additions or revisions to educational programming are needed and what
partnership opportunities are available; and what changes to street, pond and
structural BMP maintenance and operations are needed. The revised NPDES
permit and SWPPP will then be provided to the agencies for their review.
At this time, no specific changes are proposed to the SWPPP other than the City
begins evaluating alternatives on their merits and incorporate those accepted
g:\eng\swmp projects\swmp15b - nondegradation\012808 ws review ofnondeg report.doc
Paul Oehme
Review of Nondegradation ReporUStormwater Projects
January 28, 2008
Page 4
changes at a later date. The City of Chanhassen already has a number of practices
and planning tools in place which can be incorporated into the SWPPP with
minimal revision. As an example, these tools include the City's Tree Preservation
Plan, the Arbor Day Event, the Bluff Creek Overlay District, and density transfer.
Staff has begun researching the changes to policy, practice and education
incorporated by other Cities and Local Water Authorities and will apprise the
Council of their findings at future meetings.
RECOMMENDA TION
Staff is making no recommendation at this time. Staff will present the
N ondegradation Plan to the City Council as an action item at the February 11,
2008 meeting.
A TT ACHMENTS
1. Chanhassen's Draft Nondegradation Assessment prepared by Wenck
Associates dated December 2007. (text only)
2. Letter of comment from the Metropolitan Council dated December 26, 2007.
3. Email from Shelley Strohmaier dated 1/14/08
4. Email from Dave Susla dated 1/14/08
5. Email from Joe Pfankuch dated 1/15/08
6. Email from Mary Borns dated 1/15/08
7. Email from Steve Donen dated 1/15/08
8. Email from Scott Maeyaert dated 1/15/08
9. Email from Greg Fletcher dated 1/15/08
g:\eng\swmp projects\swmp15b - nondegradation\012808 ws review of nondeg report.doc
Chanhassen
Nondegradation
Assessment
Review D R AFT
Prepared for:
City of Chanhassen,
Minnesota
December 2007
__ __ __ - I
- - - - - - -- --- - - - I
-- ---,
Wenck File #1481-03
Prepared for:
CITY OF CHANHASSEN, MINNESOTA
Prepared by:
WENCK ASSOCIATES, INC.
1800 Pioneer Creek Center
P.O. Box 249
Maple Plain, Minnesota 55359-0249
(763) 479-4200
Chanhassen
Nondegradation
Assessment
ReviewD RA F T
December 2007
~Wenck
Table of Contents
1.0 INTRODUCTION .................................. .;................................................................... ....... 3
1.1 Introduction.......................................... .................................................................. ......... 3
2.0 LAND USE AND P8 MODELING ....................................................................................4
2.1 P8 Model Construction and Organization....................................................................... 4
2.2 Land Use Assessment ................................ ...................................................... ............... 5
2.3 Imperviousness Assessment................ ....... .................................................... ............... 10
2.4 Pervious Curve Numbers .............................................................................................. 12
2.5 Other P8 Inputs.......... ......................... ................................................................ .......... 13
2.6 Model Validation and Assumptions.... ............................................................... ........... 13
3.0 CURRENT WATER QUALITY TREATMENT CAPACITY ........................................ 15
3.1 Applicable Rules, Codes and Ordinances ..................................................................... 15
3.1.1 Chanhassen Codes and Ordinances ...................................................................... 15
3.1.2 Riley-Purgatory Creek-Bluff Creek Watershed District....................................... 15
3.1.3 Minnehaha Creek Watershed District ................................................................... 16
3.1.4 Lower Minnesota Watershed District ................................................................... 16
3.2 Treatment Device Quantification............ ...................................................................... 16
3 .3 Year Built For Developments............ ........................ ......................................... .......... 16
3.4 Application of Rules ..................................................................................................... 18
3.5 Street Sweeping...................................................................................................... ...... 19
4.0 MODEL RESULTS......... .................................................................................... ............. 20
4.1 Organization............................................................... .................................... ................ 20
4.2 Load Changes.......................................................... .............................................. ........ 20
4.3 Current BMP Treatment......................................... ...................................................... 22
4.3.1 Development Rules......................................... ...................................................... 22
4.3.2 Street Sweeping.................................................................................................... 23
4.3 .3 Volume......................................................................... ......................................... 24
4.3.4 TSS Loading............ ..... ....... ................................................................................. 24
4.3.5 TP Loading............... ........... ................................... ............................................... 25
4.4 Model Sensitivity............... ........................................................................................... 25
5.0 SUMMARY AND PROPOSED BMPS ........................................................................... 27
5.1 Total Suspended Solids..... ...... ......... ............................. ........................... ..................... 27
5.1.1 Regulatory Program ..................................,............ .................... ...... ...................... 27
5.1.2 Street Sweeping .................................................................................................... 28
5.1.3 Lake Ann Subwatershed ....... ............................... ................. ................................ 28
5.1.4 Other Activities........................................................................ ............................. 29
5.2 Total Phosphorus ............................................................................ .............................. 29
5.2.1 Regulatory Program................................................................ ..... ......................... 29
5.2.2 Street Sweeping.................................................................... ................................ 29
5.2.3 Lake Ann and Riley-Purgatory-Bluff Creek Subwatersheds................................ 30
5.2.4 Other Activities............................................................................ ......................... 30
5 .3 Volume........... ...... ............... ....... ................................... ................................................ 30
5.3.1 Regulatory Program ............. .............................................. ................................... 31
5.3.2 Education Program... ........... .................................................................................. 33
5.3.3 Structural Improvements..... ............................ ...................................................... 33
5.3.4 N on structural Improvements... ....................... ...................................................... 34
6.0 SWPPP MODIFICATIONS.......... ................................................................................... 36
6.1 Total Suspended Solids.............................................................................. ................... 36
6.1.1 Regulatory Program .............................................................................................. 36
6.1.2 Street Sweeping .................................................................................................... 36
6.1.3 Lake Ann Subwatershed ............. ................................ ................. ......................... 36
6.1.4 Other Activities.. ......................... ............................. ................. ..... ....................... 37
6.2 Total Phosphorus....... ............................ ........................ ................. .............................. 37
6.2.1 Regulatory Program.................................. ............ ...................... .......................... 37
6.2.2 Street Sweeping................................................................... ........................ ......... 37
6.2.3 Lake Ann and Riley Purgatory Creek Subwatersheds .......................................... 37
6.2.4 Other Activities................................................................... ................... ............... 38
6.3 Volume............................................................................................................. ............. 38
6.3.1 Regulatory Program. .............................................................................. ............... 38
6.3.2 Education Program... ......... .................................................................................... 38
6.3.3 Structural Improvements ...... ................................................................................. 39
6.3.4 N on structural Improvements .......................... ...................................................... 39
TABLES
Table 2.1. Current status of UAA analyses in the City of Chanhassen. ........................................ 4
Table 2.2. Land use categories for the City of Chanhassen. .......................................................... 5
Table 2.3. Land use acreages in the City of Chanhassen for the three key time periods............... 5
Table 2.4. Impervious fractions by land use from the UAAs, LANDSAT analysis, and those
fractions used in this study............ ....................... .................... ........................ ..... 10
Table 2.5. Digitized impervious and pervious acres for commercial and industrial areas in Eden
Prairie. ................................................................................. ................... ............... 10
Table 2.6. Total change in upland imperviousness in the City of Chanhassen. .......................... 12
Table 2.7. Curve numbers by land use and soil type. .................................................................. 12
Table 2.8. Runoff and loading by curve number from a test watershed in P8............................. 13
Table 2.9. Monitored and predicted volume and water quality for Purgatory Creek. ................. 14
Table 3.1. Estimated areas that developed under watershed district rules by subwatershed....... 18
Table 3.2. Riley-Purgatory Bluff Watershed District rules. ........................................................ 18
Table 3.3. Minnehaha Creek Watershed District rules. ............................................................... 18
Table 3.4. Lower Minnesota River Watershed District rules. ..................................................... 19
Table 3.5. Measured mass of material removed from street sweeping in the City of Chanhassen.
........................... ........................... ......... ..................... .............. ............................. 19
Table 4.1 . Raw increases in imperviousness, volume, TSS, and TP for the City of Chanhassen
from 1990 to 2020... ................................... .......... ........ .......... ................. .............. 21
Table 4.2. Predicted TSS and TP load increases between 1990 and 2020 and estimated removal
due to development rules. ............................ ....................... .................... .............. 22
Table 4.3. Particle size breakdown by NURP particle size class for three samples taken from
street sweepings in Eden Prairie. .......................................................................... 23
Table 4.4. TSS and TP removal as a result of street sweeping in the City of Chanhassen.......... 23
Table 4.5. Predicted volume increases in the City of Chanhassen between 1990 and 2020. ...... 24
Table 4.6. Predicted TSS load increases between 1990 and 2020 in comparison to BMP
removals. ...... ......................................................................................................... 24
Table 4.7. Predicted TP load increases between 1990 and 2020 in comparison to BMP removals.
...............................................................................................................................25
Table 4.8. Rice Marsh subwatershed TSS loading and removals for the 50th and 90th percentiles
of the NURP studies...................... ........ ............... ................................................. 26
Table 4.9. Rice Marsh subwatershed TP loading and removals for the 50th and 90th percentiles
of the NURP studies.................... .............................. ............................................ 26
FIGURES
Figure 2.1. Subwatershed Map ...................................................................... ..... ...................... ......6
Figure 2.2. 1990 Land Use....... ...................................................................... ........................... ...... 7
Figure 2.3. 2000 Land Use....... ...................................................................... .......................... .......8
Figure 2.4. 2020 Land use.............................................................................. ............................. ....9
Figure 2.5. MPCA 1998 Landsat Imagery (% Impervious)..........................................................11
Figure 3.1. Hennepin County Year Built by Rule Change ...........................................................17
Figure 5.1. Annual Stormwater Volume That Could Be Captured Through
Abstraction/Infiltration ................... ........ ...... ... ....................... ................... .................... .... ........... .31
TECHNICAL APPENDICES
A East Chaska Creek
B Lake Ann
C Lake Lucy
D Lake Mitchell
E Lake Riley
F Lake Susan
G Lotus Lake
H Lower Minnesota River
I Minnehaha Creek WD
J Rice Marsh Lake
K Riley Purgatory Bluff Creek WD
L Silver Lake
M Sweepings Analysis
N Analytical Methods Detail
Executive Summary
This study is completed in response to the Nondegradation Assessment requirement of the
Minnesota Pollution Control Agency as part of the City's National Pollutant Discharge
Elimination System (NPDES) Phase II permit. The purpose of this study is to assess changes in
storm water runoff volume, total suspended solids (TSS) and total phosphorus (TP) loading in the
City of Chanhassen since 1988, and to predict how land change expected to occur between now
and 2020 would impact those parameters. This analysis is to be used to identify Best
Management Practices to be undertaken to return to 1988 or better conditions.
A key component of this analysis is an assessment of the change in impervious surface due to
land use change. The percent impervious area varies in the City, with most subwatersheds
between 20 and 35 percent impervious.
1990
16%
2000
20%
2020
28%
This analysis estimated the pollutant loads and stormwater volumes for three key years - 1990 (a
proxy for 1988), 2000, and 2020. Much of the land use change in Chanhassen since 1988
occurred under regulation to protect water quality. Additionally, the City currently undertakes
Best Management Practices (BMPs) to improve water quality. The pollutant load and volume
reductions associated with those BMPs were estimated to determine the net impact to stormwater
volume and TSSffP load since 1988 and predicted to occur between now and 2020.
Removal bv BMP Net
Total Total Total Develop- Removal (-)
Parameter Load Load Increase Street or Net
1990 2020 1990-2020 ment Sweeping Increase
Rules (+)
Total 1,274,100 2,060,167 786,067 933,108 254,446 -401,488
Suspended lbs/yr Ibs/yr lbs/yr lbs/yr lbs/yr lbs/yr
Solids
Total 4,555 7,243 2,688 3,073 589 -974
Phosphorus lbs/vr Ibs/yr lbs/yr lbs/yr lbs/yr lbs/yr
Runoff 5,488 8,324 2,836 None None +2,836
Volume acre-feet acre-feet acre-feet estimated estimated acre-feeU
/year /year /year year
For the period 1990-2020, this study estimates the City will remove about 400,000 more pounds
ofTSS than created since 1988, and 1,880 pounds more TP than created. For these two
parameters, the City meets the MPCA requirement of no net increase in TSS and TP over 1988
conditions. However, land use change will generate 2,836 acre-feet of new runoff volume.
To address this increase in stormwater volume, the City has identified several new BMPs that
will over time either reduce stormwater volume or minimize the adverse effects of additional
City of Chanhassen
Nondegradation Assessment
1
D R AFT December 07
stormwater volume. Managing stormwater volume has the additional benefit of reducing TSS
and TP loading by reducing the amount of runoff picking up and transporting pollutants to
downstream waters. These BMPs include:
. A new requirement on development and redevelopment to abstract (remove from runoff by
infiltration, evapotranspiration, capture and reuse, etc.) a portion of annual runoff volume;
· Reducing additional stormwater runoff volume through evapotranspiration by developing
and implementing a reforestation program;
· Retrofitting volume management BMPs where opportunities arise, such as on City street
reconstruction projects; and
· Mitigating volume impacts by stream restoration, erosion control projects, and shoreline
restoration.
City of Chanhassen
Nondegradation Assessment
2
DR AFT December 07
1.0 INTRODUCTION
1.1 Introduction
This study is completed in response to the Nondegradation Assessment requirement of the
Minnesota Pollution Control Agency as part of the City's National Pollutant Discharge
Elimination System (NPDES) Phase II permit. The purpose of this study is to assess changes in
stormwater runoff volume, total suspended solids (TSS) and total phosphorus (TP) loading in the
City of Chanhassen since 1988, and to predict how land change expected to occur between now
and 2020 would impact those parameters. This analysis is to be used to identify Best
Management Practices (BMPs) to be undertaken to return to 1988 or better conditions.
A nondegradation assessment consists of three key steps:
1. An assessment of change in land use and imperviousness in the city from 1988 to present
and out to 2020 conditions.
2. An associated pollutant load change with the land use change for total phosphorus, total
suspended solids, and water volume.
3. Identification of current of necessary BMPs to return to 1988 conditions or better.
This study is organized as follows:
1. A description of the City, land use change since 1988, and change expected to occur
between now and 2020.
2. A description of the method used to calculate imperviousness and the results.
3. A description of the various input parameters used to model pollutant loading and
stormwater runoff volumes.
4. A review of the existing BMPs designed to reduce pollutant loading, including a history
of watershed and city rules and ordinances regulating development and redevelopment;
the maintenance of sump manholes that collect material washed into the storm sewer
system from the landscape; and the street sweeping program.
5. A detailed presentation of the results of water quality and quantity modeling reported by
subwatershed in the city. These results estimate the amount of new TSS and TP loading
and stormwater runoff volumes resulting from land use change in the City.
6. An analysis of the amount of pollutant loading removed by the BMPs described above.
7. The net impact of those BMPs in reducing the increased TSS and TP load and new
stormwater volume.
8. Identification of new BMPs the City could undertake to return to 1988 conditions or
better, or mitigate the impacts of increases.
9. Proposed modifications to the City's Storm Water Pollution Prevention Plan to plan to
implement those BMPs.
City ofChanhassen
Nondegradation Assessment
3
D R AFT December 07
2.0 LAND USE AND P8 MODELING
2.1 P8 Model Construction and Organization
Modeling for much of the City has already been completed through the preparation of Use
Attainability Assessments (UAAs) for many of the lake watersheds in Chanhassen by the Riley-
Purgatory-Bluff Creek Watershed District (Table 2.1). The UAAs include both watershed load
modeling and in-lake response modeling. The UAAs are used to identify potential improvement
projects and estimate the costs to restore the waterbody to meet selected water quality goals.
UAAs have not been completed for Lake Minnewashta nor Rice Lake.
T bl 2 1 C
fUAA
. h C' fCh h
a e . . urrent status 0 analyses m t e Ity 0 an assen.
Watershed Water Body Status
Riley-Purgatory-Bluff Creek Mitchell Lake Completed
Rice Marsh Lake Completed
Lake Riley Completed
Lake Susan Completed
Lotus Lake Completed
Lake Lucy Completed
Lake Ann Completed
Silver Lake Completed
Minnehaha Creek Lake Minnewashta Not Completed
Lower Minnesota Rice Lake Not Completed
The UAAs include a P8 model developed for each of the lake watersheds. P8 - Program for
Predicting Polluting Particle Passage thru Pits, Puddles, & Ponds - is a public domain
(http://wwwalker.net/p8/). industry standard model developed to assess pollutant loading in
urban watersheds. P8 was developed using National Urban Runoff Program (NURP) data and
provides loading estimates based on data collected as a part of the NURP program. P8 was
designed to assess the effectiveness of BMP implementation in reducing runoff loads from
impervious surfaces and provides a tool for evaluating other non structural practices such as street
sweeping. These models represent the best tools available for predicting watershed loads under
current conditions.
The models provided by the watershed districts were the basis for the City's assessment. For the
assessment, the P8 model subwatersheds were maintained as well as the device configurations.
However, imperviousness and the pervious curve numbers were updated based on evaluations of
land use, LANDSAT data, and aerial photo interpretation. Selection of these input variables is
described later in this report. It is important to note the modeling is not focused on absolute
values, rather the purpose is to assess relative change among the time periods. The modeling
does need to be close to real world values to assess the impact of current activities on loading.
The modeling was developed for this purpose and is not intended to be a calibrated loading
model.
City of Chanhassen
Nondegradation Assessment
4
D R AFT December 07
The analysis was conducted according to the receiving water including ten lakes (Figure 2.1).
Although the analysis focused on changes in loading to the lakes, the subwatershed detail was
maintained in the model for future evaluation of projects on water quality.
2.2 Land Use Assessment
Land use data was collected from the City of Chanhassen, which used the same land use
categories to classify land use in 1990, 2000, and planned 2020. These data were combined into
a representative group of categories (Table 2.2, Figures 2.2, 2.3 and 2.4). 1990 data was selected
as a surrogate for 1988 because land use data was readily available for 1990 and not 1988. Little
change occurred in the City between 1988 and 1990. The resultant coverages are the best
estimate of land use for the three critical time periods including 1990,2000 (present) and 2020.
These data were compiled for the City of Chanhassen (Table 2.3). The 2020 land use coverage
assumes build-out conditions and that no agricultural or vacant land will remain in the City. A
near doubling of the land area used as single-family residential is expected between 1990 and
2020, along with significant increases in industrial and office uses. Large-lot rural residential
uses are also expected to be converted to other, more intense uses.
T bI 2 3 L d
. th Ct f Ch h
~thth kf
'd
a e . . an use acrea esm e uyo an assen or e ree ey . lme perlO s.
Land Use Categories 1990 Land use (acres) 2000 Land Use (acres) 2020 Land Use (acres)
Agriculture 2,880 1,639 0
Commercial 246 246 310
Industrial 327 557 848
Maior Highway 443 447 794
Multi Family Residential 60 96 517
Office/Institutional 58 98 392
Open Water 1,636 1,636 1,636
Parks 1,461 1,762 1,967
Rural Residential 1,568 1,425 1,055
Railway 104 104 108
Single Family Residential 2,447 3,641 4,713
Vacant 1,112 691 2
Wetlands type 1,2,6,7,8 591 591 591
Wetlands type 3,4,5 1,647 1,647 1,647
TOTAL 14,581 14,581 14,581
City of Chanhassen
Nondegradation Assessment
5
D R AFT December 07
Legend
~ Oly of Chanhassen BoundafY
[;> Lakes
Maj or Roads
Subwatersheds
c:3 East Chaska Creek
c:s Lake Ann
C3 Lake Lucy
c::3 Lake Mitchell
III LakeRiley
III Lake Susan
C3 Lotus Lake
c:3 Lower MN River
III Mn nehaha Creel<
III Rice Ma-sh Lake
c:3 Riley Purgatory Bluff Creek (East)
III Ril~ Purgatory Bluff Creel< (West)
III Silver Lake
Subwatersheds (Source: CUyof Chanhassen)
0.5
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:<<.I: L:\1481 \1 ~81.03w.:<<l\finE'l Flgs1Flgure 2.1 Su~'elUled Wep.mxd
as! Modi ~ed: 11912007 11 :27:50 Mol
CITY OF CHANHASSEN
Subwatershed Map
1
I Miles
I ~Wenc
WenCk Assoclares I I nc. 1800 Pioneer Creek Center
Environmental Engineers Maple Plain, MN 55359-l)129
JUL 2007
Figure 2.1
City of Chanhassen
Nondegradation Assessn1ent
6
D R AFT December 07
n01:
.
Legend
~ City of Chanhassen BoundaiY
1990 Land Use
.". Agri cu Ilure
Rural R esidenlial
Single Family Residential
~ Multi Family Residential
.". Com me ri cal
.". Ind usl.ri al
o fn cell nsti tu ti ona I
",. Parks
Vacant
Wetland Types 1,2,6,7,8
",. Wetland Types 3.4 ,5
",. Open Water
",. Major Highway
",. Rail
1990 Land Use (Source: City of Chanhassen)
0.5
o
1
I Miles
N
J
..r,
1\
M>tl: L:\1481 \1481-03w.xd\final Figs~lgu~ 2.21990 Land U~.lfl);d
Leu Mocfi6ed: 11912007 11 :45:55 ~M
CITY OF CHANHASSEN
199'0 Land Use
I ~Wenc
WenCk Assoclares, I nc. 1800 Pioneer Creek Center
Environmental Engineers Maple Plain, MN 55359-l)129
JUL 2007
Figure .2.2
City of Chanhassen
Nondegradation Assessn1ent
7
D R AFT December 07
Legend
~ City of Chanhassen Boundary
2000 Land Use
",. Agricul to re
Rural Residential
Single Family Residential
~ Multi Family Residential
",. Commerical
.". Industrial
Officell n stitut:io na I
",. Par'<s
Vaca nt
Wetland Types 1,2,6,7 ,8
~ Wetland Types 3,4,5
",. Open Water
~ Major Highway
",. Railro a d
0.5
o
2000 Land Use (Source: City of Chanhassen)
M>tl: L:\1481 \1481-03w.xd\final Figs~lgu~ 2.3 2000 Land U~.lfl);d
Leu Mocfi6ed: 11912007 11 :41:38 ~M
1
I Miles
N
J
..r,
1\
I ~Wenc
WenCk Associates, I nc. 1800 Pioneer Creek Center
Environmental Engineers Maple Plain, MN 55359-l)129
JUL 2007
Figure 2.3
CITY OF CHANHASSEN
2000 Land Use
City of Chanhassen
Nondegradation Assessn1ent
8
D R AFT December 07
Legend
D Oly of Chanhassen Boundary
2020 Land Use
", Agriculture
Rural Residenlial
Single Famity Residential
11M Multi Family Residential
". Commerical
",. Industrial
OfficeJl n stituti on al
". Parks
Vacanl
Wetland Types 1,2.6.7.8
". Wet.land Types 3.4.5
",. Open Water
~ Major Highways
~ Railroad
~01:
0.5
o
2020 Land Use (Source: City of Chanhassen)
1
I Miles
N
J
..r,
1\
Mxd: L:\1481 \1481.03Vn)XI'Final Figs'Flgure 2:.4 2020 land UreJfl >>:I
last Modi~ed: 71912007 11 :49:29 Nt!
I ~Wenc
WenCk Assoclares, I nc. 1800 Pi oneer Creek Center
Environmental Engineers Maple Plain. MN 55359-l)129
JUL 2007
Figure 2.4
CITY OF CHANHASSEN
2020 Land Use
City of Chanhassen
Nondegradation Assessn1ent
9
D R AFT December 07
2.3 Imperviousness Assessment
To estimate the imperviousness in the City, assumed percent imperviousness by land use from
the watershed district supplied models and LANDSAT imagery were assessed (Table 2.4; Figure
2.5). The LANDSAT impervious fraction is an area-weighted average of imperviousness for all
pixels or partial pixels falling in each land use classification. The values were in relative
agreement except for commercial and industrial areas. Aerial photos were analyzed to determine
the imperviousness of these two land uses. The selected values for the modeling were chosen
based on aerial photo interpretation or based on an evaluation of LANDSAT estimated
imperviousness as well as knowledge of the area and to provide a conservative approach.
Table 2.4. Impervious fractions by land use from the UAAs, LANDSAT analysis, and those fractions used in
h' d
t IS stu Iy.
LANDSAT Impervious UAA Impervious Selected Impervious
Land Use Fractions Fractions Fractions
Agriculture 0.11 0.03 0.05
Commercial 0.58 0.85 0.67
Industriall 0.51 0.75 0.55
Multi-Family Residential 0.33 0.65 0.55
Parks and Recreation Areas 0.07 0.02 0.10
Office/Institutional 0.35 0.50 0.35
Railway 0.09 N/A 0.20
Roadway 0.36 0.50 0.50
Rural Residential 0.09 N/A 0.09
Single Family Residential 0.20 0.30 0.25
Vacant 0.11 0.03 0.05
h
Verified through aerI31 photo analysIs.
N/A = Not available
An aerial photo assessment of impervious areas in the adjacent City of Eden Prairie evaluated a
total of 376 commercial acres as well as 628 industrial acres (Table 2.5). Impervious and
pervious areas were digitized to estimate the area of impervious surfaces in these land use
categories. Although they represent a very small area, parking lot islands were considered
impervious because of soil compaction in these areas. Commercial areas were determined to be
approximately 67% impervious while industrial areas were determined to be 46% impervious.
Commercial development in Chanhassen is very similar to Eden Prairie. However, the
LANDSAT impervious fraction for industrial was 51 %, and 75% was used in the UAAs. This
study used 55% as the impervious fraction for industrial uses based on the LANDSAT data.
T bl 2 5 D'"f d'
d
~
'1 d'd t'l
. Ed Pr' 'e.
a e . . l2IllZe ImpervIous an . pervIous acres or commercia an m us rI3 areas m en alrI
Category Commercial Industrial
Acres Percent Acres Percent
Pervious 123 33% 341 54%
Impervious 253 67% 287 46%
TOTAL 376 100% 628 100%
City of Chanhassen
Nondegradation Assessment
10
DR AFT December 07
Legend
It:J Qly of Cllan hassen Boun dary
2:) Lakes
- Major Roads
1998 Landsat (l>/o Impervious)
D0-10%
D 11-20%
D 21-30%
. 31-40%
.41-50%
D 51-600/00
D 61- 700/00
.7'1-80%
. 81-90%
.91-1000/0
~......
~
:'I..,; fIIIII r rI
~~,..
"t;.
~..
!
-. ~
T
.~...~~
~~
i.i
h\ -~ ~
I . of.", r:t. . I' ~t..... .J
.' · L.r- ~~.'.'
Landsat Imagery (Source: MPCA)
0.5 0
1
I Miles
N
J
.or,
1\
M:<<J: L:\1481 \1 ~81.03~:<<I\finE'l FIgs1Flgure 2.s lMdS$' lmngery.rnxd
lod. MocUe:d: 71912007 11 :51:06 AM
CITY OF CHANHASSEN
MPCA 1998 Landsat Imagery (0/0 Impervious)
I ~Wenc
WenCk Assoclares. I nc, 1800 Pioneer Creek Center
Environmental Engineers Maple Plain, MN 55359-l)129
JUL 2007
Figure 2.5
City of Chanhassen
Nondegradation Assessn1ent
11
D R AFT December 07
Upland areas (areas excluding lake and wetland surface areas) in the City went from 16%
impervious in 1990 to a projected imperviousness of 28% in 2020 (Table 2.6). The Lake
Mitchell and Rice Marsh lake watersheds demonstrated the greatest impervious fractions with
54% and 39% impervious areas respectively.
T bl 2 6 T t I h
I d'
th C"t fCh h
a e . . o a c an~e In uplan ImperVIOusness In e IlY 0 an assen.
Watershed Watershed Percent Imperviousl
ID Area (acres)! 1990 2000 2020
Lake Ann 130 7 9 15
Chaska Creek 177 18 23 31
Lotus Lake 998 24 24 24
Lower MN River 509 15 15 20
Lake Lucy 707 13 17 23
Minnehaha Creek WD 2,047 18 19 21
Lake Mitchell 129 31 55 54
Rice Marsh Lake 586 32 36 39
Lake Riley 683 11 15 25
Riley Purgatory Bluff Creek WD 3,532 10 15 30
Silver Lake 113 20 25 25
Lake Susan 1,082 22 29 36
TOTAL 10,694 16 20 28
II
Does not Include wetland and lake surface areas.
2.4 Pervious Curve Numbers
The second key piece of information for the P8 model is a curve number for the pervious areas in
the model. The SCS curve number reflects an area-weighted-average of the pervious areas
considering soil types, land use and hydrologic groups. Table 2.7 lists the values used in the P8
modeling as a function of land use, hydrologic condition, and soil group.
T bl 2 7 C
b bid
d 'It
a e .. urve num ers JY. an use an so. type.
Hydrolo~ic Soil Grou
Land Use A B C D AID BID B/C AIB AlC Unclassified
Agricultural 2 49 69 79 84 66.5 76.5 74 59 64 70.25
Roadway 2 49 69 79 84 66.5 76.5 74 59 64 70.25
Single Family Residential 2 39 61 74 80 59.5 70.5 67.5 50 56.5 63.5
Park and Recreation 1 39 61 74 80 59.5 70.5 67.5 50 56.5 63.5
Commercial 2 49 69 79 84 66.5 76.5 74 59 64 70.25
Multi-Family Residential 1 39 61 74 80 59.5 70.5 67.5 50 56.5 63.5
Vacant 1 39 61 74 80 59.5 70.5 67.5 50 56.5 63.5
Industrial 3 68 79 86 89 78.5 84 82.5 73.5 77 80.5
Railway 3 68 79 86 89 78.5 84 82.5 73.5 77 80.5
OfficelInstitutional 1 39 61 74 80 59.5 70.5 67.5 50 56.5 63.5
I . .
SIngle famIly reSidentIal, park and recreatIon, multIfannly reSidentIal, vacant, and office/InstItutIonal were
considered to be in good condition.
2 Agricultural, commercial, and highways and roadways were considered to be in fair condition.
3 Industrial and rail were considered to be in poor condition.
City of Chanhassen
Nondegradation Assessment
12
D R AFT December 07
2.5 Other P8 Inputs
Other model input is the particle, precipitation and temperature file. The particle file used was
the P8 default NURP50 particle file. Both the precipitation and temperature files used were
obtained from UAA models. All models were run for the same 10 year period (1992 to 2002)
with 5 passes through the precipitation file.
2.6 Model Validation and Assumptions
Modeling was conducted for all loading in the City, including loading from other NPDES Phase
II permit holders. Other permit holders include MnlDOT, Carver County, and Hennepin County.
These loadings were included in this assessment.
The modeling approach presented here is a conservative approach to assess nondegradation. The
P8 model was developed for urban watersheds. However, one of the critical aspects of this
modeling is the change in loading that occurs as land is converted from open or agriculture to
developed land. To test the P8 model's handling of open space, a test watershed (100 acres) was
run for an average precipitation year (Table 2.8). Curve numbers in the model for open space
and agriculture typically ranged from 60 to 70. Because of the low runoff (<1.4 inches), the
loading rates for open land with these curve numbers is very low. This may be artificially
lowering the runoff from these areas, especially if the current land use is agriculture. However,
to maintain a conservative approach, these numbers were maintained in the model.
T bl 2 8 R ff did' b
b f
h d' P8
a e . . uno an oa lOll: )y curve num er rom a test waters e In
TSS load TP load
eN Runoff (in) (IbsJaclvr) TSS (ppm) (IbsJaclyr) TP (ppm)
50 0.3 , 0.7 12 0.01 0.127
55 0.5 2 17 0.01 0.138
60 0.7 4 22 0.02 0.150
65 1.0 7 29 0.04 0.167
70 1.4 13 40 0.06 0.193
75 1.9 24 55 0.10 0.226
80 2.7 44 71 0.16 0.263
85 4.0 82 89 0.28 0.305
90 6.3 163 114 0.52 0.363
95 11.0 366 148 1.09 0.440
Impervious 26.1 649 110 2.09 0.354
(NURP 50)
Impervious 26.1 1947 330 4.43 0.750
(NURP 90)
To validate the model, model results were compared to stream data collected as a part of the
Watershed Outlet Monitoring Program (WOMP; Table 2.9). For the WOMP data, a close to
average year precipitation was selected to evaluate. Data are presented as flow weighted means
or on a unit area basis. This makes the data comparable even though the model was only run for
the City of Eden Prairie portion of the watersheds. The model typically over-predicted runoff
and loading for the Purgatory Creek watershed in Eden Prairie. Although the model does not
City of Chanhassen
Nondegradation Assessment
13
DR AFT December 07
account for receiving water processes, it represents a conservative estimate of loading from the
land.
Table 2.9. Monitored and redicted volume and water uatit Creek.
Runoff Flow TSS load Flow
Watershed Year (in) Weighted (Ibs/aclyr) Weighted TP
TSS (m ) ( )
Purgatory 2004 7 23 38 160
Creek
TP load
(Ibs/aclyr)
0.26
Modeled 10 93 217 314
Data calculated from WOMP station for entire watershed
2Data calculated for City of Eden Prairie portion of watershed using NURP50 file.
0.73
City of Chanhassen
Nondegradation Assessment
14
D R AFT December 07
3.0 CURRENT WATER QUALITY
TREATMENT CAPACITY
Understanding the BMPs and water quality treatment devices in the watershed is vital in
assessing load changes in the City between 1988 and present. Additionally, assessing whether
the current practices are sufficient for protecting water quality into the future can help guide City
activities to assure compliance with nondegradation.
3.1 Applicable Rules, Codes and Ordinances
Applicable watershed district rules and City codes and ordinances that address water quality
were reviewed to determine the current treatment capacity in the City resulting from regulation.
3.1.1 Chanhassen Codes and Ordinances
Wetlands. Provides for management of wetlands and wetland impacts by management
classification as determined by a functions and values assessment. Ordinance specifies
allowable hydrologic change in wetlands, and buffer and setback standards by classification.
Shore land Management. Establishes structure, septic system, and drain field setbacks, and
minimum lot sizes; regulates grading and filling activities and alteration of natural vegetation in
the shoreland management area; and regulates onsite sewerage systems in the shoreland area.
Also, specifies maximum impervious coverage by land use type and regulates placement and
design of roads, driveways and parking areas.
Bluff Creek Overlay District. Contains a number of regulations to protect the Bluff Creek
Corridor, wetlands, bluffs, trees, and general environmental quality in the Overlay District. This
ordinance encourages minimization of new impervious surface, cluster development, and other
Low Impact Design elements, and requires a Natural Habitat Restoration Plan mitigating impacts
to natural habitat areas in the Overlay District.
Surface Water Management. Sets forth water quantity and quality requirements. Rate control
and NURP-Ievel treatment is required on new developments. Additional treatment requirements
are established for developments that discharge to higher waterbodies. Where developments
discharge to Riley or Purgatory Creek, new runoff is prohibited from increasing the flow rate in
the creek.
3.1.2 Riley-Purgatory Creek-Bluff Creek Watershed District
The District's regulatory program was formally established in 1996. Projects to alter or disturb
land surfaces in excess of one acre, fill within the 100-year floodplain, or fill within a wetland
are required to meet NURP design requirements and include skimming of floatable materials.
City of Chanhassen
Nondegradation Assessment
15
DR AFT December 07
No specific rate or volume control is required. According to Bob Obermeyer, former engineer
for the District, standards have been in place since 1977 for projects altering more than one acre.
The early emphasis was simply on erosion control, but in the early 80s started looking for
sedimentation control and treatment. The design criteria used was to provide sufficient surface
settling area to remove a 0.1 mm particle based on a 10-year, 1.65" in 30 minutes storm event
(Obermeyer, pers. corresp. 6/8/06, 7/12/06).
3.1.3 Minnehaha Creek Watershed District
The District's regulatory program was formally established in 1974 and has been periodically
revised since that time. The standards in place since 1988 apply to all land alterations except for
residential developments ofless than two acres. Wet detention basins meeting NURP design
requirements are required, except that developments less than 40 acres can choose to purchase
regional storm water storage credits. The District's current regulatory program requires all
projects to incorporate Best Management Practices, including site design, structural, and non-
structural practices. Water quality requirements depend on the land use and size of project.
Generally, NURP-Ievel treatment is required for developments of 8 acres or more.
3.1.4 Lower Minnesota Watershed District
The District's regulatory program was formally established in 1999. A Runoff Management
Plan (RMP) is required for residential projects in excess of 5 acres or nonresidential projects in
excess of one acre, or projects meeting other criteria. Runoff from the site after development
must not exceed the peak runoff from the site predevelopment for the 20-percent chance (5-year)
and I-percent chance (lOO-year) storm event. The one LMWD lake in Chanhassen, Rice Lake,
is a Level IV lake, requiring runoff treatment prior to discharge to NURP standards except that
dead storage must be provided for a 2-inch event rather than a 2.5-inch event.
3.2 Treatment Device Quantification
The City of Chanhassen's pond and wetland database was reviewed to assess the ability to
quantify the treatment capacity in the City. The most important data includes pond dead storage
or bottom and surface areas. Flood pool storage is also useful but not critical. Pond surface
areas are available, but it is not known if all ponds are included. For the Riley-Purgatory-Bluff
Creek Watershed, the data are available in the P8 model supplied by the District. Consequently,
the treatment capacity was estimated based on the year the lot was developed and the District or
City rules in place at the time.
3.3 Year Built For Developments
The first step in identifying the rules under which development occurred, is to determine the date
when a lot was developed. Hennepin and Carver Counties maintain a GIS layer that includes the
development year for a particular tax lot (Figure 3.1). The City was then broken into areas
based on the period in which different watershed rules were in place. Realizing that some
development can still occur without review (less than 5 acres), each subwatershed was evaluated
City of Chanhassen
Nondegradation Assessment
16
DR AFT December 07
Legend
n::Jl Oly of Chan hassen Boun dary
.0 Lakes
- Major Roads
Year Bunt
D No Data
D Pre '1988
D 1988-1992
. 1993-Present
Year Built (Source: Char1hassen)
0.5 0
M>XI: L:\1481 \1481.03lm:<<l\9nal FlgstFlgure 3.1 Year BUlll.mxd
L~~ Modl6ed~ 71912007 12;57:02 PM
1
I Miles
N
J
..r,
1\
I ~Wenc
WenCk Assoclares I I nc. 1800 Pioneer Creek Center
Environmental Engineers Maple Plain, MN 55359-l)129
JUL 2007
Figure 3.1
CITY OF CHANHASSEN
Hennepin County Year Built by Rule Change
City of Chanhassen
Nondegradation Assessn1ent
17
D R AFT December 07
to estimate the area of development that occurred under the watershed district rules (Table 3.1).
This was accomplished by evaluating the dates the lots were built in relation to neighboring lots.
If several lots were built together, the area was assumed to develop under the rules.
T bl 3 1 Eft d
th t d
d d
h d d. t . t I b b t h d
a e . . sIma e areas a eve ope un er wa ers e IS rlc ru es )y su wa ers e .
Watershed Estimated Number Estimated Number Fraction Built
ID Of New Lots Built Under Rules Under Rules Notes
Lake Ann 2 2 1.00
Chaska Creek 20 20 1.00
Lotus Lake 0.65 Estimated
Lower MN River 16 10 0.63
Lake Lucy 267 251 0.94
Minnehaha Creek WD 0.70 Estimated
Lake Mitchell 13 13 1.00
Rice Marsh Lake 295 282 0.96
Lake Riley 314 290 0.92
Riley Purgatory Bluff
Creek WD 0.80 Estimated
Silver Lake 73 66 0.90
Lake Susan 0.90 Estimated
3.4 Application of Rules
Watershed rules were in place in the early 1980s, however the key rules are those in place after
1988. Since the early 1990s the pond design was the National Urban Runoff Program (NURP)
standard and is assumed to provide a 50 to 60% total phosphorus reduction and a 70 to 80% total
suspended solids reduction.
T bl 3 2 Ril Po
BI ff W
h dD.
a e . . ey- r atory. u aters e Istnct ru es.
TP% TSS % Volume %
Year Built Reduction Reduction Reduction Notes
Pre 1988 0 0 0 Some WQ reduction starting in early to mid
80s
1988-1992 50-60% (1) 70-80% (I) 0 Provide dead storage for the lO-year 30 min
event (1.65 inches)
1993-2007 50-60% (2) 70-80% (2) 0 Rules - NURP. Provide dead storage for the
2.5 inch, 24-hr event
1.
Assumed based on the rule
2 Assumed based on NURP standards
Table 3.3. Minnehaha Creek Watershed District rules.
TP% TSS% Volume %
Year Built Reduction Reduction Reduction Notes
Pre 1988 50-60% (IJ 70-80% (IJ 0
1988-1992 50-60% (I) 70-80% (I) 0
1993-2007 50-60% (2) 70-80% (2) 0 Requirement depends on type of land use and
development size
1.
Assumed based on the rule
2 Assumed based on NURP standards
City of Chanhassen
Nondegradation Assessment
18
D R AFT December 07
Table 3.4. Lower Minnesota River Watershed District rules.
TP% TSS% Volume %
Year Built Reduction Reduction Reduction Notes
Pre 1988 0 0 0 Some WQ reduction starting in early to mid
80s
1988-1992 50-60% (1) 70-80% (I) 0 Provide dead storage for the lO-year 30 min
event (1.65 inches)
1993-2007 50-60% (2) 70-80% (2) 0 Rules - NURP. Provide dead storage for the
2.5 inch, 24-hr event
1,
Assumed based on the rule
2 Assumed based on NURP standards
3.5 Street Sweeping
The City of Chanhassen has a street sweeping program and maintains detailed records of
material removed from streets. The City removed between 1 and 6 million pounds of raw
material annually between 2004 and 2006 with an average removal of 3.3 million pounds (Table
3.5).
Table 3.5. Measured mass of material removed from street sweeping in the City of Chanhassen.
Tons Pounds Material
Swept (Dry Removed
Year Weil!:ht)
2003
2004 1,472 2,944,400
2005 506 1,011,500
2006 2,975 5,950,000
Average 1,651 3,301,967
City ofChanhassen
Nondegradation Assessment
19
DR AFT December 07
4.0 MODEL RESULTS
4.1 Organization
Model results were organized on a receiving water basis with the City's ten lakes as the focus
(Figure 2.1). Model results are presented in for these subwatersheds. Those subwatersheds that
drain out of the City or drain to creeks that ultimately drain out of the City without entering a
lake were grouped together. The details of the P8 models supplied by the watershed districts
were maintained and are provided in the Technical Appendices.
4.2 Load Changes
Changes to impervious area, volume, TSS, and TP for the City of Chanhassen between 1990 and
2020 are presented in Table 4.1. Between 1990 and 2020 the City is expected to add about 1,250
impervious acres resulting in an increased discharge of over 2,800 acre-feet of water. The
increased discharge was predicted to include an additional 786,000 pounds of TSS and 2,690
pounds of total phosphorus.
City of Chanhassen
Nondegradation Assessment
20
DR AFT December 07
(lbs per year)
2020
49
2000
31
TP
1990
27
1990 to 2020.
2020
13,803
TSS (lbs per year)
2000
8,635
Raw increases in imperviousness, volume, TSS, and TP for the City of Chanhassen from
1990
7,363
2020
64
(ac~er year)
2000
41
Flow
1990
36
2020
19
Impervious Area
(acres)
2000
11
1990
9
Area
(acres)
Watershed
In
4.1
e
Tabl
130
Lake Ann
Chaska
Creek
131
568
98
567
79
555
38,448
166,271
28,622
166,222
22,905
162,366
155
682
118
682
99
668
54
240
41
241
31
236
177
998
246
395
193
292
191
235
71,558
117,550
55,417
85,955
54,705
68,607
299
460
242
347
239
285
103
165
76
117
75
91
509
707
1,020
937
901
297,523
272,234
172
261
1,237
1.146
1.106
429
386
368
2,047
241
532
572
2,508
65
916
7,243
1,378
65
765
5t458
1,038
54
588
4,555
739,018
19,092
271,391
2,060,167
394,652
19,095
225,324
1,521,111
290,670
15,771
171,498
1,274,100
2,977
78
1,074
8,324
1,731
78
908
6,370
1,364
66
713
5,488
1,076
28
392
2,979
528
28
319
2,127
358
23
236
1,732
3,532
113
1,082
10t694
Lotus Lake
Lower MN
River
Lake Lucy
Minnehaha
Creek WD
Lake
Mitchell
Rice Marsh
Lake
Lake Riley
Riley
Purgatory
Bluff Creek
WD
Silver Lake
Lake Susan
TOTAL
241
532
359
~n
o -.
::1'2
~~
""
;:J 9
l}!'i
5' ir
::I ~
:x:.",
'" ::I
'"
'"
'"
3
'"
::;,
142
437
307
49,487
157,846
118,182
49,546
142,930
72,480
28,824
129,130
61,091
193
622
483
193
567
318
116
517
279
70
231
171
70
209
99
40
187
78
129
586
683
to.>
....
~
~
~
~
~
~
(l)
::s
<::-
(l)
.,
~
'1
4.3 Current BMP Treatment
The primary BMPs in the City are load reductions through the application of development rules
and street sweeping. These BMPs were evaluated to estimate the pollutant removal and volume
reduction each were currently providing and could be expected to provide in the future. The
reductions were summed to estimate the total amount of pollutant removal and applied to the
load increase resulting from land use change to determine the net change in pollutant load and
stormwater volume between 1990 and 2020.
4.3.1 Development Rules
To evaluate the impact of application of development rules, each parcel in the city was assigned
a treatment level depending on when it was built and the treatment rules that were in place at that
time. For each subwatershed, raw and treated TSS and TP loads were calculated for each
subwatershed based on land use in 1990,2000, and 2020.
The reduction attributed to development rules was calculated as follows. Say a parcel that was
vacant in 1990 generated a 30 pound per year TSS load. After development, it generated a raw
load of 100 pounds per year TSS. Treatment rules were applied to the raw post-development
load: 100 pounds * 80 percent removal = 80 pounds removed per year. This parcel generated a
raw load increase of 70 pounds per year, but treatment resulted in 80 pounds per year TSS
removal. Thus development can result in a net decrease in TSS and TP load.
Treatment rules have been in place since 1988, so development after 1988 was assumed to be
treated to NURP standards (80 percent removal TSS, 60 percent removal TP). However, as
discussed above, some development may not have required treatment. The estimated removal
due to rules was calculated as the raw load increase times the 80 percent NURP removal rate,
times the estimated fraction of development built under the rules shown in Table 3.1.
Table 4.2. Predicted TSS and TP load increases between 1990 and 2020 and estimated removal due to
d I I
eve opment ru es.
Total TSS Development Total TP Development
Increase Rules Increase Rules
Watershed 1990 - 2020 TSS Removal 1990 - 2020 TP Removal
ID (Ibs/vr) (Ibs/vr) (Ibs/vr) (Ibs/vr)
Lake Ann 6,439 3,975 22 11
Chaska Creek 15,544 17,095 51 88
Lotus Lake 3,905 14,135 13 184
Lower MN River 16,853 16,079 55 88
Lake Lucy 48,943 66,698 160 214
Minnehaha Creek WD 36,351 51,212 119 165
Lake Mitchell 20,663 34,025 99 162
Rice Marsh Lake 28,715 45,232 95 339
Lake Riley 57,091 68,975 265 245
Riley Purgatory Bluff Creek WD 448,348 469,214 1,470 1187
Silver Lake 3,321 4,829 11 27
Lake Susan 99,893 141,641 328 362
TOTAL 786,066 933,108 2,688 3,073
City of Chanhassen
Nondegradation Assessment
22
DR AFT December 07
4.3.2 Street Sweeping
The City of Chanhassen has a street sweeping program and maintains detailed records of
material removed from streets. Much of the volume of material that accumulates on streets is
trash and organic material such as leaves, and sand and sediment particles that are too heavy to
become suspended in stormwater as TSS. To estimate the fraction of material removed by street
sweeping that would likely have become a part of the TSS load, three samples of street
sweepings taken in nearby Eden Prairie were analyzed and an actual particle size distribution
developed. Based on that analysis, it is estimated that about 5.5 percent of the volume of street
sweepings was of a particle size that fell into the P8 TSS particle size class distribution (see
Table 4.3). That percent was applied to the average annual volume of street sweepings removed
to obtain an estimate of TSS removal from sweeping. To calculate the estimated annual TP
removal by street sweeping, the P8 fraction of TP associated with TSS (3,850 mglkg) was
applied to the 3.3 percent that fell into the particle size distribution PO% to P50%. A literature
value of 300 mglkg was applied to the 2.2 percent that fell into the P80% class. The annual
average removal of TSS and TP was allocated among the watersheds based on the impervious
acres in that subwatershed, assuming that the subwatersheds with more impervious acres had
more road surface that were swept (Table 4.4).
Table 4.3. Particle size breakdown by NURP particle size class for three samples taken from street sweepings
in Eden Prairie.
NURP % of Sample Particle Class
Particle Class Sample 1 Sample 2 Sample 3 Average %
PO% 0.0 0.0 0.0 0.00
PlO% 1.6 1.6 1.1 1.43
P30% 0.5 0.5 0.0 0.33
P50% 2.2 1.7 0.8 1.57
P80% 2.7 2.7 1.1 2.17
Total 2.7 6.5 3.0 5.50
T bl 4 4 TSS d TP
It f t t
. th C't f Ch h
a e . . an remova as a resu o s ree swee lID\! ID e llV 0 an assen.
Impervious Watershed TSS Removal TP Removal
Watershed ID Area in 2000 (acres) (pounds) (pounds)
Lake Ann 11 951 2
Chaska Creek 41 3,521 9
Lotus Lake 241 20,579 50
Lower MN River 76 6,504 16
Lake Lucy 117 9,986 24
Minnehaha Creek WD 386 32,983 80
Lake Mitchell 70 6,019 15
Rice Marsh Lake 209 17,834 43
Lake Riley 99 8,481 21
Riley Purgatory Bluff Creek
WD 528 45,118 110
Silver Lake 28 2,385 6
Lake Susan 319 27,247 66
TOTAL 2,127 181,608 441
City of Chanhassen
Nondegradation Assessment
23
DR AFT December 07
4.3.3 Volume
Estimated volume increases for the major subwatersheds in the City are presented in Table 4.5.
Although there is potential for a net loss from evaporation from constructed ponds, no BMPs or
loss have been quantified for this study.
T bl 4 5 P d' t d
. th C't f Ch h
b t
1990 d 2020.
a e . . re IC e vo ume Increases In e uyo an assen e ween an
Watershed Total Flow Increase
Watershed ID Area (acres) 1990 - 2020 (ac.-ft./ yr)
Lake Ann 130 28
Chaska Creek 177 56
Lotus Lake 998 14
Lower MN River 509 60
Lake Lucy 707 175
Minnehaha Creek WD 2,047 131
Lake Mitchell 129 76
Rice Marsh Lake 586 105
Lake Riley 683 204
Riley Pur~atory Bluff Creek WD 3,532 1,614
Silver Lake 113 12
Lake Susan 1,082 361
TOTAL 10,694 2,836
4.3.4 TSS Loading
The total predicted increase in TSS loading from 1990 to 2020 was compared to removals by
active BMPs in the City to assess compliance with nondegradation. Except for the Lake Ann
subwatershed, annual TSS removals exceeded the estimated increase between 1990 and 2020
(Table 4.6).
T bl 46 Pr d' d TSS I d'
b
1990 d 2020 .
BMP
a e . . e lete oa Increases etween an In comparison to remova s.
Total TSS TSS Removal Net
Increase 1990-2000 2000-2020 Removal (-) or
Watershed 1990 - 2020 Development Development Street Cleaning Net Increase (+)
ID (Ibs/yr) Rules (lbs) Rules (lbs) (lbs) (lbs)
Lake Ann 6,439 179 3,796 1,619 +845
Chaska Creek 15,544 4,610 12,485 4,646 -6,197
Lotus Lake 3,905 5,775 8,360 20,516 -30,746
Lower MN River 16,853 338 15,741 8,772 -7,998
Lake Lucy 48,943 16,459 50,239 14,124 -31,879
Minnehaha Creek
WD 36,351 10,796 40,415 36,649 -51.509
Lake Mitchell 20,663 17,927 16,098 6,010 -19,372
Rice Marsh Lake 28,715 14,769 30,463 19,708 -36,225
Lake Riley 57,091 13,242 55,733 14,635 -26,519
Riley Purgatory
Bluff Creek WD 448,348 70,377 398,837 91,889 -112,755
Silver Lake 3,321 1,599 3,229 2,376 -3,884
Lake Susan 99,893 48,567 93,074 33,502 -75,251
TOTAL 786,066 204,637 728,471 254,446 -401,488
City of Chanhassen
Nondegradation Assessment
24
D R AFT December 07
4.3.5 TP Loading
The total predicted increase in TP loading from 1990 to 2020 was compared to removals by
active BMPs in the City to assess compliance with nondegradation. For all of the subwatersheds
except Lake Ann and Riley-Purgatory-Bluff Creek, annual TP removals exceeded the estimated
increase between 1990 and 2020 (Table 4.7).
T bl 47 Pr d. t d TP I d.
b t
1990 d 2020 .
t BMP
a e . . e IC e oa lDcreases e ween an lD comparIson 0 remova s.
Total TP TP Removal Net
Increase 1990-2000 2000-2020 Removal (-) or
Watershed 1990 - 2020 Development Development Street Cleaning Net Increase (+)
ID (Ibs/yr) Rules (Ibs) Rules (Ibs) (Ibs) (Ibs)
Lake Ann 22 1 10 4 +8
Chaska Creek 51 38 50 11 -47
Lotus Lake 13 77 107 48 -219
Lower MN River 55 22 67 20 -54
Lake Lucy 160 66 149 33 -87
Minnehaha Creek
WD 119 43 122 85 -131
Lake Mitchell 99 85 77 14 -76
Rice Marsh Lake 95 171 168 46 -291
Lake Riley 265 53 193 34 -14
Riley Purgatory
Bluff Creek WD 1,470 201 986 213 +70
Silver Lake 11 14 14 6 -22
Lake Susan 328 128 234 78 -111
TOTAL 2,688 898 2.174 589 -974
4.4 Model Sensitivity
Because the model is not calibrated and is only used for comparison purposes, it is useful to test
the sensitivity of model to selected inputs, especially as we compare model results to real-world
measured removals.
The first parameter that may affect the results of the model is the selection of the particle file.
The current modeling is based on the NURP50 file, which represents the median concentrations
from the NURP studies. To assess the potential effects of underestimating runoff concentrations,
the Rice Marsh subwatershed was analyzed using both the median runoff concentrations
(NURP50) and 90th percentile runoff concentrations (NURP90).
Results of the 50th and 90th percentile runs are presented in Table 4.8 and Table 4.9. Even if the
actual concentrations were more similar to 90tfi percentile concentrations for both TSS and TP,
the City of Chanhassen would be meeting the nondegradation requirement.
City of Chanhassen
Nondegradation Assessment
25
DR AFT December 07
Table 4.8. Rice Marsh subwatershed TSS loading and removals for the 50th and 90th percentiles of the
NURP studies.
Total TSS TSS Removal Net
Increase Removal (-) or
Watershed 1990 - 2020 Development Street Net Increase (+)
ID (Ibs/vr.) Rules (Ibs) Cleaning (lbs) (lbs)
Rice Marsh
NURP 50 27,193 45,232 17,834 -35,873
Rice Marsh
NURP 90 81,577 114,250 17,834 -50,507
Table 4.9. Rice Marsh subwatershed TP loading and removals for the 50th and 90th percentiles of the NURP
studies.
Total TP TP Removal Net
Increase Removal (-) or
Watershed 1990 - 2020 Development Street Net Increase (+)
ID (lbs/vr) Rules (lbs) Cleaning (lbs) (lbs)
Rice Marsh
NURP 50 95 339 43 -287
Rice Marsh
NURP 90 202 702 43 -543
City of Chanhassen
Nondegradation Assessment
26
DR AFT December 07
5.0 SUMMARY AND PROPOSED BMPS
The City of Chanhassen, in conjunction with the Riley-Purgatory- Bluff Creek and Minnehaha
Creek Watershed Districts, has been actively managing water quality for many years. These
activities have included developing and enforcing rules to minimize water quality impacts from
development; building and maintaining BMPs throughout the city; and actively sweeping city
streets to remove as much material as possible from the impervious surfaces. These activities
have been very effective in the mitigation of increased TSS and TP loads from the watershed.
The increase in impervious surface between 1990 and 2000 has resulted in increased stormwater
runoff volume, and that volume is expected to continue to increase with further development.
Volume is difficult to remove from the watershed, and it is unlikely that the City will be able to
attain 1988 volume conditions. However, the effects of increased runoff volume can be
minimized or mitigated through stream bank and shoreline stabilization programs, infiltration,
and rate control. Consequently, the best approach to addressing volume is through aggressive
abstraction and mitigation and opportunistic volume control.
5.1 Special and Impaired Waters
Bluff Creek was added to the State of Minnesota 303( d) list of Impaired Waters in 2002 for
excess turbidity and on 2004 based on its fish community index of biotic integrity score.
TMDLs have not yet been completed for those impairments. Lotus Lake was added to the
303(d) list in 2002 for excess nutrients, and Lake Riley in 2002 for excess nutrients and mercury-
fish consumption. Seminary Fen and Assumption Creek are Outstanding Resource Value
Waters.
5.2 Total Suspended Solids
The combination of development rules and street sweeping has proved effective in reducing the
volume of total suspended solids to a level well below that estimated to have been contributed in
1988. Most ofthat removal is a result of application of development rules and other regulations,
but almost one-quarter is achieved through the aggressive street maintenance program. Each
subwatershed except Lake Ann meets the Nondegradation Total Suspended Solids requirement
by removing more TSS through regulation and BMPs than the new load generated since 1988
(see Table 4.6). It should be noted that if any future TMDLs for any water resource to which
Chanhassen discharges requires additional TSS load reduction, then the City may be required to
remove additional TSS or TP load beyond simply meeting the Nondegradation TSS and TP
requirement.
5.2.1 Regulatory Program
Development rules will continue to require land-altering activities to provide at least NURP-Ievel
removal (80%) of Total Suspended Solids prior to discharge. In accordance with its NPDES
City of Chanhassen
Nondegradation Assessment
27
DR AFT December 07
permit, the City annually inspects 20 percent of those detention ponds that are publicly-owned to
determine maintenance needs and evaluate whether they continue to perform at the level to
which they were designed. City ordinance requires owners of private stormwater facilities to
perform regular maintenance and to operate those facilities so they continue to perform at the
level to which they were designed. Developer's Agreements specify required maintenance. The
City's Stormwater Management Plan designates Assumption Creek and Seminary Fen as
"Preserve" classification water resources, requiring a higher level of treatment for discharges to
those waters, including temperature controls.
5.2.2 Street Sweeping
This maintenance program removes not only smaller particles that contribute to Total Suspended
Solids, but also larger particles of inorganic and organic material that can contribute to
downstream clarity and water quality issues as well as obstruct pipes, create sediment deltas at
outlets, and aggrade in streams and impair biotic functions. Street sweeping also improves
traffic safety and general aesthetics by removing unsafe or unsightly materials from the streets.
The City will continue to sweep streets once per year -in the spring to remove sand and salt
residue from winter de-icing plus any spring leaves and seeds and old organic material. Other
street sweeping is performed throughout the year as necessary.
Recent research in Wisconsin (Bannerman 2007) indicates that the incremental water quality
benefit of increased street sweeping is small unless the frequency of sweeping is very aggressive.
Street sweeping practices will be refined to improve the water quality and overall benefit of
street sweeping:
1. Spring street sweeping will be performed as early as possible to remove material from the
street before the spring rains.
2. Increased street sweeping frequency may be of benefit in sensitive locations, such as in the
Lake Ann subwatershed or where there is noticeable aggradation in streams or below
outfalls or where a UAA or TMDL indicates that efforts should be maximized to remove
pollutant loading. The City will evaluate the potential benefits of more frequent street
sweeping in sensitive areas.
3. Timing of street sweeping will be evaluated to maximize its efficacy, for example,
sweeping prior to hydrant flushing.
5.2.3 Lake Ann Subwatershed
The Lake Ann subwatershed is projected to generate 845 pounds more TSS in 2020 than was
generated in 1990. This sub watershed is very small, and has a low watershed to lake area ratio.
The lake also has good water quality and clarity. There are several outfalls into Lake Ann. The
City will investigate the possibility of retrofitting those outfalls with sump manholes or other
devices to collect sediment prior to discharge into the lake. The City will also look for
opportunities to reduce runoff by increasing abstraction in the subwatershed, and evaluate land
use policies governing development for opportunities to reduce the creation of new TSS.
City of Chanhassen
Nondegradation Assessment
28
D R AFT December 07
5.2.4 Other Activities
The volume management activities described in section 5.3 below such as increased infiltration,
biofiltration, and runoff volume controls may further reduce TSS and TP loading by pre-treating
or reducing the amount of runoff volume conveying TSS and TP to waters.
5.3 Total Phosphorus
As with TSS, the combination of development rules, manhole cleanout, and street sweeping has
proved effective in reducing the volume of total phosphorus to a level below that estimated to
have been contributed in 1988. Most of that removal is a result of application of development
rules, but almost 20 percent is achieved through the aggressive street maintenance program.
Each subwatershed meets the Nondegradation Total Phosphorus requirement by removing more
TP through regulation and BMPs than the new load generated since 1988 (see Table 4.7). It
should be noted that if any future TMDLs for any water resource to which land in Chanhassen
drains requires additional TP or TSS load reduction, then the City may be required to remove
additional TP or TSS load beyond simply meeting the Nondegradation TP and TSS requirement.
5.3.1 Regulatory Program
Development rules will continue to require land-altering activities to provide at least NURP-Ievel
removal (60%) of Total Phosphorus prior to discharge. In accordance with its NPDES permit,
the City annually inspects 20 percent of those detention ponds that are publicly-owned to
determine maintenance needs and evaluate whether they continue to perform at the level to
which they were designed. City ordinance requires owners of private stormwater facilities to
perform regular maintenance and to operate those facilities so they continue to perform at the
level to which they were designed. Developer's Agreements specify required maintenance. The
City's Stormwater Management Plan designates Assumption Creek and Seminary Fen as
"Preserve" classification water resources, requiring a higher level of treatment for discharges to
those waters, including temperature controls.
5.3.2 Street Sweeping
This maintenance program removes not only smaller particles that are a fraction of the TSS load,
but also larger particles of organic material that can contribute to downstream clarity and water
quality issues. Street sweeping also improves traffic safety and general aesthetics by removing
unsafe or unsightly materials from the streets, and reduces the amount of material on the street
that can clog catch basin covers and limit street drainage.
The City will continue to sweep streets once per year -in the spring to remove sand and salt
residue from winter de-icing plus any spring leaves and seeds and old organic material. Other
street sweeping is performed throughout the year as necessary.
Recent research in Wisconsin (Bannerman 2007) indicates that the incremental water quality
benefit of increased street sweeping is small unless the frequency of sweeping is very aggressive.
City of Chanhassen
Nondegradation Assessment
29
D R AFT December 07
Street sweeping practices will be refined to improve the water quality and overall benefit of
street sweeping:
1. Spring street sweeping will be performed as early as possible to remove material from the
street before the spring rains.
2. Increased street sweeping frequency may be of benefit in sensitive locations, where there is
noticeable aggradation in streams or below outfalls or where a UAA or TMDL indicates
that efforts should be maximized to remove pollutant loading. The City will evaluate the
potential benefits of more frequent street sweeping in sensitive areas.
3. Timing of street sweeping will be evaluated to maximize its efficacy, for example,
sweeping prior to hydrant flushing.
5.3.3 Lake Ann and Riley-Purgatory-Bluff Creek Subwatersheds
The Lake Ann subwatershed is projected to generate 8 pounds more TP in 2020 than was
generated in 1990, with 70 additional pounds TP estimated in the Riley-Purgatory-Bluff Creek
subwatershed.
The Lake Ann subwatershed is very small, and has a low watershed to lake area ratio. The lake
also has good water quality and clarity. There are several outfalls into Lake Ann. Reduction in
TSS loading from those outfalls as described above will also reduce phosphorus loading. The
City will investigate the possibility of retrofitting those outfalls with sump manholes or other
devices to collect sediment prior to discharge into the lake. The City will also look for
opportunities to reduce runoff by increasing abstraction in the subwatershed, and evaluate land
use policies governing development for opportunities to reduce the creation of new TP.
The Riley-Purgatory-BluffCreek subwatershed encompasses about one-third of the city's area.
Impervious cover is expected to double between 2000 and 2020. A significant portion of this
subwatershed falls within the City's Bluff Creek Overlay District, described in Section 3.1.1
above. This ordinance contains a number of zoning and planning tools that will be applied to
development and redevelopment in this overlay district as part of the City's overall policy to
protect the Bluff Creek Corridor and its wetlands, bluffs, wooded areas, and water resources. If
the regulatory program is not successful in limiting new TP the City will incorporate TP
reduction BMPs into City projects as opportunities arise.
5.3.4 Other Activities
The volume management activities described in section 5.3 below such as increased infiltration,
biofiltration, and runoff volume controls may further reduce TP and TSS loading by pre-treating
or reducing the amount of runoff volume conveying TP and TSS to waters.
5.4 Volume
This report estimates that stormwater volume in the city will increase by about 50 percent
between 1990 and 2020, with most of that volume increase occurring between 2000 and 2020.
City of Chanhassen
Nondegradation Assessment
30
DR AFT December 07
Each subwatershed, with the exception of Silver Lake and Lotus Lake, significantly exceeds the
Nondegradation Volume Management requirement.
Where new volume is expected to be generated as a result of future development or
redevelopment, the regulatory program can be a means to achieve some level of volume
management. Best Management Practices in already-developed areas will likely be confined to
small volume management practices retrofitted where opportunities arise, and mitigation of
water quality-related impacts of volume such as streambank stabilization. The City's water
resources and environmental education programs can also provide information to residential and
other property owners on small-scale volume management practices for individual properties.
5.4.1 Regulatory Program
Abstraction/Infiltration. Neither the City nor the three watershed districts with land in the city
require the infiltration or abstraction of stormwater runoff, although that concept is being
discussed as a potential rule change in Minnehaha Creek. Abstraction is the removal of
stormwater from runoff, and can include BMPs such as infiltration, evapotranspiration, pervious
pavement, and capture and reuse. Most of the annual volume of stormwater runoff is generated
by small rain events, so abstraction and infiltration of small events can significantly reduce the
amount of annual runoff volume.
Precipitation-frequency curves derived from precipitation records at the Minneapolis-St. Paul
International Airport can be used to estimate the percent of total annual volume that could be
captured through infiltration (see Figure 5.1). About 85 percent of annual stormwater volume is
generated from the first one inch of rainfall - storm events of up to one inch, plus the first inch of
events greater than one inch. A rule requiring abstraction of the first one inch of rainfall could
theoretically reduce new runoff volume by 85 percent. About 80 percent of annual volume is
generated from the first three-quarters inch and 65 percent from the first one-half inch of rainfall.
Evaluation of Stormwater Infiltration Rules
Determined from MSP Precipitation - Frequency Curves
1.00
^
k>- - ~ r- -v
.L"7- --
~-
,A
~ ", 0.5" -65%
/I If 0.75" - 80%
I 1.0" - 85%
jf
v
......
c;...L
~ "0 0.75
c ~
<c.a
'0 g. 0.50
cO
~~
~:s 0.25
J... ns
L1.a:
0.00
0.0
0.5
1 .0 1 .5 2.0
Infiltration Storm Depth Rule [in]
2.5
3.0
Figure 5.1. Annual stormwater volume that could be captured through abstraction/infiltration.
(Wenck Associates, Inc. derived from MPCA Minnesota Stormwater Manual Appendix B.)
City of Chanhassen
Nondegradation Assessn1ent
31
D R AFT December 07
A secondary but important benefit of abstraction is that volume is no longer being contributed to
runoff, and is not picking up and transporting pollutants to downstream waters. Research
conducted by Prof. Robert Pitt (Pitt 1998) in the City of Milwaukee suggests that 25 percent of
the annual total phosphorus load is conveyed in the first one-half inch of rainfall, and 15 percent
of the annual TSS load. For the first inch of rainfall, that load is 65 percent of annual TP and 50
percent of annual TSS. In the Twin Cities, 90 percent of all rainfall events are one inch or less.
The most common form of abstraction is infiltration. A growing number of watershed
management organizations are enacting infiltration rules, with one-half inch infiltration from
new impervious surface common. The Ramsey-Washington County Watershed District and
Capitol Region Watershed Districts recently enacted a one inch from new impervious surface
rule, and the Minnehaha Creek Watershed District is considering one inch as well.
Adopting an abstraction requirement will reduce the new volume of runoff from developing and
redeveloping areas. Chanhassen soils are mapped as generally being of soil hydrologic group B.
These soils readily infiltrate. However, do to the highly urbanized land use throughout much of
Chanhassen actual infiltration rates may be diminished from those anticipated for the mapped
soil unit. There are pockets of less permeable C and D soils. Most development and
redevelopment should be able to successfully incorporate infiltration.
An abstraction requirement for new development will only address new volume predicted to
occur between its promulgation and 2020 - about 1,950 acre-feet. However, in the very long-
term, as existing development redevelops, the new volume generated between 1990 and 2000
and prior will slowly be mitigated as redevelopment and reconstruction occurs.
The projected new storm water volume between 2000 and 2020 is 1,950 acre-feet. A one-half
inch abstraction requirement might reduce new stormwater volume by an estimated 65 percent,
or 1,270 acre-feet, leaving an estimated net new stormwater volume of 680 acre-feet.
The City will work with the Watershed Districts to review and consider adopting a volume
management requirement for new development and redevelopment.
Soil Management Plan requirement. An assumption in calculating stormwater volume to be
captured from an abstraction requirement is that the part of the site that is pervious and
infiltrating stormwater pre-construction will be as pervious and infiltrate at least as much
stormwater volume post-construction. In reality, construction activities such as mass grading,
road and utility construction, and structure construction lead to soil compaction and loss of
permeability.
To maximize the effectiveness of an infiltration requirement, the City will consider revising its
ordinances to require developers to submit a Soil Management Plan that details how the
developer plans to 1) minimize soil compaction from construction activities, 2) phase
construction activities to minimize exposed soils, and 3) restore site permeability through actions
such as post-construction soil ripping or soil amendment.
City of Chanhassen
Nondegradation Assessment
32
D R AFT December 07
Encourage Low Impact Development (LID). Low Impact Development (LID), Integrated
Management Practices (IMP), and Better Site Design principles and practices encourage
developers to consider stormwater impacts of new development early in the planning process.
The City's zoning code includes provisions for Planned Unit Developments that may vary from
strict application of zoning requirements to make it easier to tailor a development to the terrain
and minimize stormwater impacts such as new volume. The City will review its zoning code and
Planned Unit Development process to evaluate existing zoning or development incentives to
encourage developers to creatively apply LID, IMP and better site design principles to minimize
new stormwater volumes and pollutant loading and to consider revisions to its zoning code and
PUD process.
5.4.2 Education Program
The City has in place an education and outreach program to provide information to various
audiences on a wide variety of stormwater management and water quality issues. This program
will target both residential property owners and commercial property owners on ways to
incorporate small infiltration practices on their property. Small-scale practices such as rain
gardens, conversion of turf to native vegetation, pond and wetland buffers, installation of rain
barrels and cisterns, and use of pervious pavement and pavers, can add up to significant water
quality and stormwater reductions when broadly applied. The City will utilize its currently
existing educational programming as well as explore cooperative opportunities with outside
agencies and will also develop targeted information for developers on incorporating Low Impact
Development principles and water quality and volume management into development and
redevelopment.
5.4.3 Structural Improvements
Structural BMPs to manage storm water volume will be constructed as stand-alone projects or
incorporated into other projects such as street reconstruction as opportunities arise. These BMPs
store and infiltrate or evapotranspirate storm water at the street, block, or neighborhood scale.
The cost per acre-foot for these types of BMPs can be significant as stand-alone projects, but
may be more cost-effective when combined with other improvements such as a neighborhood
street reconstruction project. These types of BMPs also will have the benefit of further reducing
pollutant loading.
Where it is difficult or too costly to significantly reduce new stormwater volume, downstream
water resources will be protected from adverse effects through restoration and stabilization
projects.
Infiltration basins. An infiltration basin is a shallow, vegetated basin designed to hold and
infiltrate stormwater. Some evapotranspiration also occurs. Infiltration basins also have an
ongoing significant maintenance cost. Over time sediment discharged into the basins
accumulates and reduces the infiltration capacity. This sediment must be removed periodically
and permeability restored through soil ripping, soil amendment, etc.
City of Chanhassen
Nondegradation Assessment
33
D R AFT December 07
Constructed wetlands. Constructed wetlands can decrease stormwater volume through
evapotranspiration from wetland vegetation as well as evaporation from open water stored in the
wetland.
Underground infiltration. New technologies are available to construct infiltration devices under
large paved areas such as parking lots or streets Integrated Management Practices (IMP), and
Better site Design principles and practices. There is an ongoing annual cost to remove and
dispose of accumulated material from the device.
Streambank stabilization. The new volume of storm water generated through land use change is
conveyed through the system of lakes, wetlands, and small channels into the major streams that
drain the City: Bluff Creek and Riley Creek and to a lesser extent Assumption Creek. This
additional volume increases peak flow rates and elevations in the streams, and has the potential
to destabilize and erode streambanks. The increased peak flows and streambank erosion also
may stress biological communities in the streams.
These adverse impacts can be mitigated by strengthening streambanks and restoring areas of
existing erosion, as well as considering structural amendments to the stream channel such as rock
vanes. Habitat lost to past impacts can be mitigated with this restoration by re-vegetating
streambanks, adding step pools, and enhancing substrate.
The City and the watershed districts have performed general inventories of the major streams to
identify areas of existing erosion. The City is currently taking steps to stabilize a number of the
identified erosion areas and will continue to work in partnership with the watershed districts to
undertake a program of stream restoration. These projects would range from simple spot repairs
of streambanks to potential total restoration of the stream. These projects will combine both
stabilization and habitat enhancement.
5.4.4 Nonstructural Improvements
Reforestation. Urban trees are an integral part of the storm water management system. Trees
intercept rain and snow fall, storing event volume for later evaporation. Trees also use surface
storage for transpiration, removing additional storm water volume from the stormwater system.
Trees have other benefits as well. Trees increase property values, provide habitat, take in C02
and release oxygen, enhance neighborhood aesthetics, and decrease home heating and cooling
costs. The City recognizes this value by requiring, by ordinance, replacement of trees lost to
construction or land alteration.
Numerous studies have been conducted estimating the volume ofrainfall that trees intercept (for
example, Xiong et al 2000, McPherson 2005) This annual volume is dependant on the type and
species of tree, and whether the tree is isolated, such as an urban street tree, or part of a forest
canopy. For example, evergreen trees can intercept and store more stormwater than deciduous
trees because their narrow leaves provide a greater leaf surface area. The volume also depends
on the intensity of the storm, with less intense events resulting in more interception. On average,
however, literature suggests that an isolated deciduous tree can intercept approximately 25
percent of the annual volume of rainfall that falls upon it. Combined with the daily water use for
City of Chanhassen
Nondegradation Assessment
34
DR AFT December 07
transpiration (Wullschleger 1998), it is estimated that a single deciduous tree can
evapotranspirate 2,000 - 3,000 gallons of stormwater per year. A coniferous tree can
evapotranspirate an even greater amount.
It is estimated that about 10,000 trees could evapotranspirate about 100 acre-feet of stormwater
volume. The City will evaluate its existing reforestation program and current preservation
practices to reduce the amount of rainfall that runs off the landscape.
WetlandlUpland Restoration. The City has restored dozens of acres of wetlands and will
continue to look for additional opportunities to restore wetland areas and the associated upland.
Wetland vegetation is very efficient at transpiring significant volumes of water, reducing the
overall volume discharged to water resources downstream. Native vegetation planted in restored
uplands can increase the infiltration capacity of poorer soils by increasing organic matter in the
soil and by creating long root channels to convey water deep into the soil.
City of Chanhassen
Nondegradation Assessment
35
DR AFT December 07
6.0 SWPPP MODIFICATIONS
The following are the proposed modifications to the City of Chanhassen SWPPP to address the
findings of this analysis.
6.1 Total Suspended Solids
The City currently meets the Total Suspended Solids requirement. Modifications to the SWPPP
are confined to some refinement of the BMPs for those activities that reduce TSS throughout the
City, and specifically in the Lake Ann subwatershed.
6.1.1 Regulatory Program
Development rules will continue to require land-altering activities to provide at least NURP-Ievel
removal (80%) of Total Suspended Solids prior to discharge. The City's Surface Water
Management ordinance specifies design criteria, including NURP-Ievel removals. BMP 5b-l
Regulatory Mechanism to Address Post Construction Runoff from New Development and
Redevelopment provides for review and update of ordinances to ensure they are adequate and
consistent with storm water management plan requirements. No additional update is necessary.
6.1.2 Street Sweeping
Increased street sweeping frequency may be of benefit in sensitive locations, where there is
noticeable aggradation in streams or below outfalls or where a UAA or TMDL indicates that
efforts should be maximized to remove pollutant loading. BMP 6a-2 Street Sweeping will be
revised to add an evaluation of locations where additional street sweeping would be most
effective. Based on that evaluation the City may perform additional sweeping in those sensitive
areas.
6.1.3 Lake Ann Subwatershed
BMP 5a-l will be revised to include an evaluation of land use policies for the Lake Ann
watershed that would minimize increase in TSS and also complement the Comprehensive Land
Use plan promoting the dedication of park land and preservation of buffers and open space
within the watershed. Such policies may include park expansion, increased setbacks or buffers,
tiered density, promotion of cluster housing, or restrictions on the amount of land in anyone
phase of construction. The City will continue to actively manage the forested area within Lake
Ann Park to maximize canopy cover as well as look for additional opportunities in Lake Ann
Park for abstraction.
City of Chanhassen
Nondegradation Assessment
36
DR AFT December 07
Opportunities for additional stormwater treatment, abstraction and infiltration will be identified
within the Lake Ann watershed and the City will work with adjacent property owners to facilitate
these opportunities.
6.1.4 Other Activities
The volume management activities described in section 5.3 above such as increased infiltration,
biofiltration, and runoff volume controls may further reduce TSS loading by pre-treating or
reducing the amount of runoff volume conveying TSS to waters. BMP 5a-l Development and
Implementation of Structural and/or Non-structural BMPs will be amended to incorporate these
practices into city construction projects.
6.2 Total Phosphorus
The City currently meets the Total Phosphorus requirement. Modifications to the SWPPP are
confined to some refinement of the BMPs for those activities that reduce TP throughout the City,
and specifically in the Lake Ann and Riley-Purgatory-Bluff Creek subwatersheds.
6.2.1 Regulatory Program
Development rules will continue to require land-altering activities to provide at least NURP-level
removal (60%) of Total Phosphorus prior to discharge. The City's Surface Water Management
ordinance specifies design criteria, including NURP-level removals. BMP 5b-l Regulatory
Mechanism to Address Post Construction Runoff from New Development and Redevelopment
provides for review and update of ordinances to ensure they are adequate and consistent with
storm water management plan requirements. No additional update is necessary.
6.2.2 Street Sweeping
Increased street sweeping frequency may be of benefit in sensitive locations, where there is
noticeable aggradation in streams or below outfalls or where a UAA or TMDL indicates that
efforts should be maximized to remove pollutant loading. BMP 6a-2 Street Sweeping will be
revised to add an evaluation of locations where additional street sweeping would be most
effective. Based on that evaluation the City may perform additional sweeping in those sensitive
areas. The City will also review the coordination and timing of street sweeping activities with
other City management activities to maximize efficacy of sweepings.
6.2.3 Lake Ann and Riley Purgatory Bluff Creek Subwatersheds
The BMPS identified in Section 6.1.3 above would also reduce TP load to Lake Ann. A
significant portion of this subwatershed falls within the City's Bluff Creek Overlay District,
described in Section 3.1.1 above. This ordinance contains a number of zoning and planning tools
that will be applied to development and redevelopment in this overlay district as part of the
City's overall policy to protect the Bluff Creek Corridor and its wetlands, bluffs, wooded areas,
and water resources. BMP 5b-l Regulatory Mechanism to Address Post Construction Runoff
from New Development and Redevelopment will be revised to provide for a review of the
City of Chanhassen
Nondegradation Assessment
37
DR AFT December 07
Overlay District ordinance to determine whether revisions are necessary to provide additional
protection.
6.2.4 Other Activities
The volume management activities described in section 5.3 above such as increased infiltration,
biofiltration, and runoff volume controls may further reduce TP loading by pre-treating or
reducing the amount of runoff volume conveying TP to waters. BMP 5a-l Development and
Implementation of Structural and/or Non-structural BMPs will be amended to incorporate these
practices into city construction projects.
6.3 Volume
The City will work cooperatively with the three watershed districts with land in the city to
coordinate regulatory volume management BMPs with watershed district rules.
6.3.1 Regulatory Program
Abstraction requirement BMP 5b-l Regulatory Mechanism to Address Post Construction Runoff
from New Development and Redevelopment will be revised to provide for review and
amendment of local controls and the local water management plan to evaluate and implement an
abstraction/infiltration requirement for new development and redevelopment that is consistent
with watershed district requirements.
Soil Management Plan requirement. BMP 5b-l Regulatory Mechanism to Address Post
Construction Runoff from New Development and Redevelopment will be revised to provide for
review and amendment of local controls and the local water management plan to evaluate and
implement a soil management plan requirement for new development and redevelopment.
Evaluate regulatory means to encourage Better Site Design. BMP 5b-l Regulatory Mechanism
to Address Post Construction Runoff from New Development and Redevelopment will be
revised to provide for a review of City Ordinances and procedures to identify means such as
zoning or development incentives to encourage developers to incorporate Low Impact
Development (LID), Integrated Management Practices (IMP) or Better Site Design principles to
minimize new stormwater volumes and pollutant loading.
6.3.2 Education Program
The City undertakes an education and outreach program to providing education to various
audiences on a wide variety of stormwater management and water quality issues. These are
described in various BMPs implementing Minimum Measure 1: Public Education and Outreach.
These BMPs adequately generally describe the education and outreach program. Specific topics
to be covered in these activities vary from year to year. The annual list of topics will include
information on small practices for water quality and volume management such as rain gardens,
conversion of turf to native vegetation, installation of rain barrels and cisterns, and use of
pervious pavement and pavers. Topics will also include developer education regarding
City of Chanhassen
Nondegradation Assessment
38
DR AFT December 07
storm water management. Other educational and outreach activities will include continuation of
the existing Arbor Day tree sale and promotion of the Carver County Soil and Water
Conservation District's seedling pack purchase program. Current methods to communicate with
the public will be evaluated and revised as necessary.
6.3.3 Structural Improvements
Structural Projects. Structural BMPs will be constructed as stand-alone projects or incorporated
into other projects such as street reconstruction as opportunities arise. The highest need is for the
reduction of new stormwater volume generated since 1988. Most structural volume-management
improvements are not cost-effective as stand-alone projects, but may be more cost-effective if
they can be incorporated into other projects such as street reconstruction. BMP 5a-l
Development and Implementation of Structural and/or Non-structural BMPs will be revised to
incorporate pollutant loading and volume management BMPs on city projects.
Mitigation Projects. Where it is difficult to significantly reduce new storm water volume,
downstream water resources can be protected from adverse effects through restoration and
stabilization projects. BMP 5a-l Development and Implementation of Structural and/or Non-
structural BMPs will be revised to incorporate development of a stream and shoreline restoration
program to mitigate past erosion, enhance habitat, and prevent future erosion. The City will
continue identifying eroded gullies, escarpment and wash areas and begin to cooperatively
mitigate these areas whenever possible with the Watershed Districts. This program may include
city or watershed district projects, and assistance to property owners in completing such projects.
6.3.4 Nonstructural Improvements
Reforestation. BMP 5a-l Development and Implementation of Structural and/or Non-structural
BMPs will be revised to include a goal to provide opportunities for resident to purchase or plant
trees for increased storm water abstraction based upon the existing spring tree sale held annually
by the City and the tree coupon program the City currently operates.
The City will continue its policy of preserving existing woodland areas where opportunities arise
through density transfer, conservation easements, park dedication and other planning tools.
BMP 5b-l Regulatory Mechanism to Address Post Construction Runoff from New Development
and Redevelopment describes the ordinance review process the City will undertake to determine
if its regulatory program is adequate to effectively prevent or reduce nonpoint source pollution.
As part of that review process the City will review its existing Landscaping and Tree
Preservation Requirements and revise if necessary to promote tree preservation and reforestation.
WetlandlUpland Restoration. BMP 5a-l Development and Implementation of Structural and/or
Non-structural BMPs will be revised to note that the city will continue to look for opportunities
to undertake wetland and upland restorations as volume management BMPs that are part of an
overall volume management program.
City of Chanhassen
Nondegradation Assessment
39
DR AFT December 07
References
Bannerman, R.T. et al. 1993. Sources of pollutants in Wisconsin storm water. Wisconsin Department of
Natural Resources. Water, Science and Technology. 28 (3-5): 241-259.
Bannerman, R.T. 2007. Reducing the uncertainty in the calculations of street cleaner performance for
Wisconsin municipalities. Wisconsin Department of Natural Resources. Unpublished research.
Frelich, Lee E. 1992. Predicting dimensional relationships for Twin Cities shade trees. St. Paul, MN:
University of Minnesota, Department of Forest Resources.
McPherson, G. et al. 2005. Municipal forest benefits and costs in five US cities. Journal of Forestry.
December 2005: 411-416.
Minnesota Department of Transportation. 2005. The cost and effectiveness of stormwater management
practices. Report No. MNIRC - 2005-23. St. Paul, MN: MnDOT Research Services Section.
Minnesota Pollution Control Agency. 2000. Protecting Water Quality in Urban Areas. St. Paul, MN. "
http://www.pca.state.mn.us/water/oubs/sw-bmomanual.html>>
Minnesota Pollution Control Agency. 2006. Minnesota Stormwater Manual. St. Paul, MN. <<
http://www.pca.state.mn.us/water/stormwater/stormwater-manual.html>>
Obermeyer, B. Riley-Purgatory Creek-Bluff Creek and Nine Mile Creek Watershed District engineer.
Pers. corresp. 6/8/06, 7/12/06
Pitt, Robert E. April 29-30, 1998. Course notes presented at the workshop: Storm Water Quality
Management through the Use of Detention Basins. Earl Brown Continuing Education Center,
Univ. of Minnesota, St. Paul, Minn.
Pitt, R., J. Lantrip, and R. Harrison. 1999. Infiltration through disturbed urban soils and compost-
amended soil effects on runoff quality and quantity. Report No. EPAl6001 R-001016 US EPA. National
Risk Management Research Laboratory, Cincinnati, OH.
USEPA. 1999. Preliminary data summary of urban storm water best management practices. Report No.
EPA-821-R-99-012
Wullschleger, S. D., F.e. Meinzer, and R.A. Vertessy. 1998. A review of whole-plant water use studies
in trees. Tree Physiology. 18:499-512.
Xiao, Q., et al. 2000. Winter rainfall interception by two mature open-grown trees in Davis, California.
Hydrological Processes. 14:763-784.
Xiao, Q., et al. 2000. A new approach to modeling tree rainfall interception. Journal of Geophysical
Research. 105(D23):29,173-29,188.
City of Chanhassen
Nondegradation Assessment
40
DR AFT December 07
~ Metropolitan Council
December26, 2007
Environmental Services
Mr. Terry Jeffery
Water Resources Coordinator
City of Chanhassen
7700 Market Blvd
Chanhassen, MN 55317
CITY OF CHANHASSEN
IRl~cgl!n'W~[j)
DEe 3 1 Z007
RE: Chanhassen Draft Nondegradation Plan
ENGINEERING DEPT,
Dear Mr. Jeffery:
Metropolitan Council staff has reviewed the draft Nondegradation Assessment plan prepared for the
city as part of its MS4 NPDES permit requirements. Council staff has foundthe plallto be consistent
with the Council's Water Resources Management Policy Plan.
The above plan indicates that the amount of suspended solids and phosphorus will be reduced between
1990 and 2020. However, the total runoff volume will increase by over 50 percent from 1990
conditions. The plan outlines several strategies which the city will consider to reduce the runoff
volume between current conditions and 2020. However, the plan does not detail a clear action plan for
achieving reductions in storm water volume. There are a number of "impaired waters" in the city
which are being degraded because of increased storm water runoff. It is critical that a clearly defined
action plan be proposed onhowthecitywilheduce stbrm.water volume so these impaired water
bodies call be improved. '. .
Requiring abstraction/infiltration for development and redevelopment as well as a soil management
plan and promoting low impact development will all lead toward improved waters by reducing runoff
volume but it takes ~ strong regulatory commitment from the city to bring this to fruition.
Thank you for the opportunity to review the city's nondegradation plan. If you have any questions
about the comments, please contact Jack Frost of my office at 651-602-1078.
SmCerelj'~
-
Keith Buttleman, Assistant General Manager
Environmental Quality Assurance Department
KB:jf
cc: : ." Diane Spector, Wenck and Associates
,Jim Uttley,Metropolitan Council Sector' Reptesentative
www.metrocouncil.org
390 Robert Street North. St. Paul, MN 55101-1805 . (651) 602-1005 . Fax (651) 602-1477 . TTY (651) 291-0904
An Equal Opportunity Employer
Page 1 of 1
Jeffery, Terry
From: Aanenson, Kate
Sent: Monday, January 14, 2008 3:56 PM
To: Jeffery, Terry
Subject: FW: Chanhassen Lakes assessmE}nt
From: Sstrohma@aol.com [mailto:Sstrohma@aol.com]
Sent: MondaYI January 141 20084:01 PM
To: City Council; Aanenson, Kate
Subject: Chanhassen Lakes assessment
To: City of Chanhassen Planning commission and City Council
I am a resident of Chanhassen concerned about the qualtiy of Lotus Lake. The non-degradation assessment
the city has developed appears to be an excellent, well developed document. I appreciate the work that has
gone into it. I support the recommendations to have the city adopt the more advanced storm water
management practices mentioned in the document on page 2 of the executive summary and section 5.4.1.
The report also points out that Lotus Lake will meet the 1988 guideline due to the fact that the Lake was fully
developed in 1988 and thus will not get much attention due to this assessment. I'd like to point out,
however, that Lotus Lake is still on the impaired waters list and needs to be improved well beyond 1988
standards. Therefore, I want to strongly recommend that you support the Lotus Lake improvement project that
the Watershed is proposing as part of the its 10 year plan. This plan implements the more advanced storm
water management practices by reducing volume and improving the quality and can be used a stepping stone
for the rest of the city's lakes and streams.
Thank you for your consideration of this issue.
Sincerely,
Shelley Strohmaier
Strohmaier Consumer Insights
80 Sandy Hook Road
Chanhassen, MN 55317
Phone: 952-949-1143
Fax: 952-949-1157
sstrohma @aol.com
Start the year off right. Easy ways to stay in shape in the new year.
1/15/2008
Page 1 of 1
Jeffery, Terry
From: Aanenson, Kate
Sent: Tuesday, January 15, 2008 7:54 AM
To: Jeffery, Terry
Subject: FW: Lotus Lake
From: Dave Susla [mailto:Dave.Susla@palmcoveofbradenton.com]
Sent: Monday, January 14, 2008 5:22 PM
To: City Council; Aanenson, Kate
Subject: Lotus Lake
Hi, my name is Dave Susla, I am the recently elected President of the Lotus Lake Homeowners Association. I am
writing to you out of concern for Lotus Lake as it relates to the recent studies on the non-degradation
assessments. While the assessment the city has developed appears to be an excellent document and I
appreciate the fine work that has gone into it, I am concerned that it does not go far enough to protect and
preserve Lotus Lake and, more importantly, ultimately get Lotus Lake removed from the impaired waters list.
strongly support the recommendations to have the city adopt the more advanced storm water management
practices mentioned in the document on page 2 of the executive summary and section 5.4.1 .
While it is fairly evident that Lotus Lake will meet the 1988 guideline, it is mainly due to the fact that Lotus Lake
was fully developed in 1988. So the 'bar' was set pretty low with regards to improvement, as the majority of the
damage from development was already present in 1988. The bottom line is that Lotus Lake will receive very little
benefit by meeting the 1988 guideline. Given this fact and the fact that Lotus Lake is still on the impaired waters
list, it needs to be improved well beyond 1988 standards. While there has been no formal homeowner vote on
this subject, I can tell you from personal conversations with many lakeshore owners, water quality is a primary
and growing concern on the lake. As a group, I can assure you that we are very interested in seeing you support
the Lotus Lake improvement project that the Watershed is proposing as part of the watershed's 10 year plan. As I
am sure you know, the plan will implement more advanced Storm water management practices than are currently
being proposed. The ultimate goal of the watershed's program is to get Lotus Lake off of the impaired waters list.
I want to thank you in advance for taking the time to read this note and, ultimately, for your support.
Regards,
Dave Susla
1/15/2008
Page 1 of 1
Jeffery, Terry
From: Aanenson, Kate
Sent: Tuesday, January 15, 2008 7:55 AM
To: Jeffery, Terry
Subject: FW: Non Degradation Assessment
From: Joe pfankuch [mailto:j.pfankuch@mchsLcom]
Sent: Monday, January 14, 2008 6:23 PM
To: City Council; Aanenson, Kate
Subject: Non Degradation Assessment
Dear City of Chanhassen Planning commission and City Council:
As a Lotus Lake resident and Chanhassen citizen since 1991 and I'm very proud of our lake, and we feel
privileged to have this type of resource. But I'm embarrassed that some Chanhassen residents still won't swim in
Lotus Lake due to the pollution.
My family is very interested in improving the "impaired" status of our lake and we have taken a proactive effort:
. Picking up garbage on the lake during ice fishing season
. Helping to educate neighbors to become good stewards.
. Cleaning the streets from harmful items which could wash into the lake
. Communicating DNR and City water preservation ideas to the lake's watershed area
. Etc.
It appears the non-degradation assessment the city has developed is a commendable document with sound
results. It shows that Lotus Lake has passed this assessment when related to 1988 guidelines. At first glance, one
would think that this is good - and it's certainly not bad. But the lake was fully developed and fairly polluted in
1988 and so even meeting these guidelines we are still "impaired". To this end, going back to a previously
unacceptable standard just doesn't make sense. I don't think Cleveland wants to go back to 1969 when the
Cuyahoga River was on fire. It's the same scenario.
Although I appreciate the hard work put into the assessment, we need to (and can) do better by comparing
ourselves against excellence, not mediocrity. Our Schools don't aim for mediocrity and I wouldn't think we'd want
our natural resources to be satisfied with it either. We need to strive for better than this. And we have a great
opportunity to do so with a huge groundswell of support.
Therefore, I am strongly in favor of the recommendations to have the city adopt the more advanced storm water
management practices mentioned in the document on page 2 of the executive summary and section 5.4.1.
Furthermore, I want to strongly recommend that you support the Lotus Lake improvement project that the
Watershed is proposing as part of the watersheds 10 year plan. This plan basically implements the more
advanced Storm water management practices by reducing volume and improving the quality and can be used a
stepping stone for the rest of the city's lakes and streams.
Thank you for your considerations, I look forward to doing more than my share to help clean up one of our best
resources.
Regards,
Joe Pfankuch
1/1512008
Jeffery, Terry
From:
Sent:
To:
Subject:
Aanenson, Kate
Tuesday, January 15, 2008 11 :42 AM
Jeffery, Terry
FW: Non Degradation Meeting Tonight
-----Original Message-----
From: corpmech@netzero.net [mailto:corpmech@netzero.net]
Sent: Tuesday, January 15, 2008 11:34 AM
To: Aanenson, Kate
Subject: Non Degradation Meeting Tonight
Kate,
The non-degradation assessment the city has developed appears to be an excellent document
well developed and with sound results. I appreciate the fine work that has gone into it.
I am writing to support the recommendations to have the city adopt the more advanced storm
water management practices mentioned in the document on page 2 of the executive summary
and section 5.4.1.
I commend Paul Oehme & Terry Jeffery for their recent combined efforts with the Riley
Purgatory Bluff Creek Watershed. They have both been very open minded & have offered many
out-of-the-box suggestions that will benefit the environment while meeting the growing
needs of Chanhassen. Paul & Terry are currently working together with the RPBC
watershed? engineer on the Meadow Green Wetland project in the Carver Beach area to
maximize the end result of clean water leaving the pond, as well as, taking advantage of
possibly $800,000 of watershed funding to meet common goals. By partnering on projects
with common goals, the resolutions will take both perspectives into consideration & our
city tax dollars will go farther.
It is imperative that we make funds available to focus on implementing redevelopment
standards of infiltration for retrofitting volume management where opportunities arise on
city street & reconstruction projects throughout all of Chanhassen. These projects will
reduce erosion while Improving water quality for all of our lakes & streams.
Lotus Lake was already a fully developed residential lake in 1988; the phosphorous &
suspended solid statistics were already at a level beyond it?s classification of a
recreational lake; which is defined as fishable & swimable. Regardless of the fact that
Lotus scathes by on the non-degradation report required by the city (being the same as
1988); the volume of surface water run-off is extremely high and we are recognized as an
impaired water with the State since 2003. Accepting 1988 (post development) levels of
phosphorous & pollutants for this particular lake would be less than mediocrity.
Lotus being added to the MN303D impaired list dictated that tax payers conduct an $80,000
Use Attainability Analysis (UAA).
The UAA was completed by Barr Engineering in 2005. This comprehensive study analyzes the
phosphorous, nitrate, suspended solid loading, and invasive plant specie issues and their
many sources. Barr?s report addresses exact steps that need to be taken including 4 years
of herbicide treatment to kill the excessive milfoil and curly leaf pond weed that was
enabled by high phosphorous levels. Alum treatment during years 5-7 to prevent the
phosphorous already on the bottom of the lake from recirculating throughout the lake.
Years 8-10 continual monitoring and possible reapplication of herbicide or alum. We also
need to terminate the purple loosestrife by introducing Galerualla Beetles supplied by the
DNR.
In addition to Barr?s recommendations, the watershed?s proposed ten year plan would
implement more advanced storm water management practices by reducing volume and improving
the quality. The only way the proposed ten year plan will PERMANENTLY improve the lake is
by PERMANENTLY reducing volume & phosphorous entering the lake. This is true of all
Chanhassen lakes & streams.
Since the report was released in 2005, some holding ponds have been modified & cleaned
out. None of the many recommendations by Barr Engineering have taken place, and
unfortunately there has not been any measurable improvements to water quality.
So to consider Lotus Lake with two city parks, public swimming beaches & a fishing dock
up to par is a huge misconception.
Three dedicated members or our Lotus Lake Clean Water Organization (LLCWO), Steve Donen,
Scott Maeyaert & myself, have been working with the Riley Purgatory Bluff Creek Water
Shed District since May of 2007 to implement the 10 year plan recommended by Barr
Engineering. By working with local watersheds the city will have a better opportunity to
develop plans that work & defray costs from city funds.
This plan would reduce volume and improve quality of the storm water run off. We strongly
encourage the support of city managers and Council to encourage the watershed to proceed
with the proposed ten year RPBC plan.
Thank you for your considerations.
Sincerely,
Mary Borns
7199 Frontier Trail
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Page 1 of 1
Jeffery, Terry
From:
Aanenson, Kate
Sent: Tuesday, January 15, 2008 1 :02 PM
To: Jeffery, Terry
Subject: FW: Chanhassen Non-degradation assessment
Attachments: phosphorous over time.ppt
From: Donen, Steve [mailto:STEVE_DONEN@NATUREWORKSLLC.COM]
Sent: Tuesday, January 15, 2008 12: 18 PM
To: Aanenson, Kate; City Council
Subject: FW: Chanhassen Non-degradation assessment
To: City of Chanhassen Planning commission and City Council
The non-degradation assessment the city has developed appears to be an excellent document with good
data and sound recommendations. I appreciate the fine work that has gone into it. As a reminder the rules do
indicate that the city must implement a plan that keeps the city at or better than the 1988 levels. The "or better is what
is key and is what Lotus Lake needs".
I am taking this time to write this note to strongly support the recommendations that the city adopt more advanced
storm water management practices mentioned in the document on page 2 of the executive summary and section
5.4.1. These are needed not only to meet 1988 measurements for the city but also to make sure developed and
undeveloped areas are managed properly in the future. We must do better for all our lakes and streams to be
protected and improved. Chanhassen with its many lakes, and creeks has an opportunity to be a leader and
set examples for the rest of the world to follow. I strongly recommend the city adopt these more advanced storm
water practices through ordinances and regulations.
One of the limitations with this assessment is that Lotus Lake will meet the 1988 guidelines and this is mainly due to
the fact that Lotus Lake was fully developed in 1988 and thus will not get much attention due to this assessment. .
The assessment does not use actual lake data it uses models and estimates. I have attached a graph of the actual
Phosphorous levels in Lotus Lake since 1972 and you will see that in the 70's Lotus Lake was even worse than today's
levels, the sewer system around Lotus was installed in the late 70 early to mid 80's and the lake improved to its best
numbers in the late 80's and it has been on a slight increase since. Basically the data does support the assessments
findings the not much has changed since the late 80's for Lotus Lake.
I want to remind you that Lotus Lake is still on the impaired waters list and needs to be improved well beyond 1988
standards (first paragraph or better) a few of us on the watersheds citizens advisory committee (Mary Borns, Scott
Maeryaerts, and myself) have been working with the Watershed district to get a Lotus Lake improvement project in
the watershed's 10 year plans. This plan basically implements the more advanced Storm water management
practices by reducing volume and improving the quality of the Lotus Lake watershed. Once this project is completed it
can be used as a stepping stone for the rest of the city's lakes and streams. We ask for all your help to support
this project in the watersheds improvement plans. We need all of you to support this proiect. the funding and
management of the proiect will come from the Watershed district. The plan is at the critical state of needing to be
approved as part of the 10 year plan and with the city's support I believe this will happen and be a great opportunity for
Chanhassen to lead the world in showing how to improve a lake in a fully developed community.
Thank you for your considerations and support;
Steve Donen
President of Lotus Lake Clean Water Organization
RPCBC Watershed District Advisory Committee
1/15/2008
Mar-94 Sep-99 Mar-05
- Trend Line Polynomial
Phosphorous Levels
1972 to 2005
Oct-77 Apr-83 Oct-88
- Phosphours levels at 2 meters
0.120
0.100
_ 0.080
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May-72
Jeffery, Terry
From:
Sent:
To:
Subject:
Aanenson, Kate
Tuesday, January 15, 2008 2:56 PM
Jeffery, Terry
FW: non degradation assesment
-----Original Message-----
From: Scott P Maeyaert [mailto:scott.p.maeyaert@ampf.com]
Sent: Tuesday, January 15, 2008 1:43 PM
To: City Council; Aanenson, Kate
Subject: non degradation assesment
The non-degradation assessment the city has developed appears to be an excellent document
well developed and with sound results. I appreciate the fine work that has gone into it.
I am taking this time to write this note to support the recommendations to have the city
adopt the more advanced storm water management practices mentioned in the document on page
2 of the executive summary and section 5.4.1.
Also, it points out that Lotus Lake will meet the 1988 guideline due to the fact that
Lotus Lake was fully developed in 1988 and thus will not get much attention due to this
assessment. I want to remind you that Lotus Lake is still on the impaired waters list and
needs to be improved well beyond 1988 standards, for this reason I want to strongly
recommend that you support the Lotus Lake improvement project that the Watershed is
proposing as part of the watersheds 10 year plan. This plan basically implements the more
advanced Storm water management practices by reducing volume and improving the quality and
can be used a stepping stone for the rest of the city's lakes and streams.
Thank you for your considerations;
> > > > > > > >
Scott. P. Maeyaert, CFP@
Senior Financial Advisor
An Ameriprise Platinum Financial ServicesSM practice
Ameriprise Financial Services, Inc.
7601 France Ave South. Suite 550
Edina, MN. 55435-5970
Office: 952.857.1280 I Fax: 952.831.0974 scott.p.maeyaert@ampf.com ameriprise.com
We shape financial solutions for a lifetime@ Ameriprise Financial Services, Inc. offers
financial advisory services, investments, insurance and annuity products. RiverSource@
products are offered by affiliates of Ameriprise Financial Services, Inc., Member FINRA
and SIPC.
******************************************************************************
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confidential or privileged information.
If you are not the intended recipient, any disclosure, copying, use, or distribution of
the information included in this message and any attachments is prohibited. If you have
received this communication in error, please notify us by reply e-mail and immediately and
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1
CITY OF
CHANHASSEN
7700 Market Boulevard
PO Box 147
Chanhassen, MN 55317
Administration
Phone: 952.227.1100
Fax: 952227.1110
Building Inspections
Phone: 952.227.1180
Fax: 952.227.1190
Engineering
Phone: 952.227.1160
Fax: 952.227.1170
Finance
Phone: 952.227.1140
Fax: 952.227.1110
Park & Recreation
Phone: 952.227.1120
Fax: 952.227.1110
Recreation Center
2310 Coulter Boulevard
Phone: 952.227.1400
Fax: 952.227.1404
Planning &
Natural Resources
Phone: 952.227.1130
Fax: 952.227.1110
Public Works
1591 Park Road
Phone: 952.227.1300
Fax: 952.227.1310
Senior Center
Phone: 952.227.1125
Fax: 952.227.1110
Web Site
www.ci.chanhassen.mn.us
B-.;;l
MEMORANDUM
~~\\JI<!I r: rrM~.k"J~
TO:
FROM:
DATE:
SUBJ:
Paul Oehme, City Engineer
1,P
Terrance Jeffery, Water Resources Coordinator"
January 28,2008
~~
Surface Water Management Projects Update
SUMMARY
This is intended to be an informational meeting to update the City Council of
ongoing and proposed surface water projects. The projects have primarily been
identified through the Chanhassen Surface Water Management Plan or have been
proposed at the request of citizen input or in conjunction with other infrastructure
improvement projects. Table 1 lists the projects by priority and includes the funds
set aside in the CIP to address these issues. This table is followed by a general
description of each in-the-ground project grouped by level of City involvement
and activity.
Priority Project Est. Cost
1 SWMP-03l Meadow Green Park Pond Improvement . $400,000
2 SWMP-012 Nondegradation Assessment In progress
3 SWMP-019 Laredo Drive Reconstruction Stormwater Mngt TBD
4 SWMP-024 Bluff Creek TMDL Study PCAfunding.
5 SWMP-024 Bluff Creek Ravine #2 Stabilization Project <l:l'\nn()n
6 SWMP-012 Curry Farms Creek Channel Stabilization& t'\noo() ·
Christmas Lake Delta Removal
7 SWMP-012 Database for Stormwater O&M ongomg
8 SWMP-012 Stormwater Infrastructure Inspections ongoing
9 SWMP-029 Landings Court Stormwater Pond Improvement $70,000
10 SWMP-030 Lake Susan Shoreline Restoration $51,000
11 SWMP-012 Pervious Pavement Demonstration Project Well $150,000
#13 - researching grant opportunities
12 SWMP-012 Wetland Restoration W.78tn and Galpin -land TBD
acquisition
13 SWMP-027 Natural Resources Stewardship Plan $50,000
Table 1. Prioritization of SWMP Projects
CURRENTL Y PROPOSED PROJECTS
Meadow Green Park Pond Imvrovments
In 2005, the pond in Meadow Green Park Pond failed and resulted in serious
erosion issues within the outlet channel to Lotus Lake and subsequent sediment
The City of Chanhassen · A growing community with clean lakes, quality schools, a charming downtown, thriving businesses, winding trails, and beautiful parks. A great place to live, work, and play.
Paul Oehme
SWMP Projects Update
January 28,2008
Page 2 of 6
deposition in Lotus Lake. Although the pond was repaired to existing conditions,
additional engineering is needed to address structural deficiencies of the pond.
Further, given the limited opportunity for rate and volume control within the West
Central Lotus Lake Watershed, we are evaluating opportunities to maximize the
storage of the pond. Work performed in conjunction with the pond expansion
include stabilization of the outlet channel and evaluation of the sanitary sewer for
purposes of Inflow and Infiltration.
Laredo Drive ReconstructionStormwater Management
The Lotus Lake Watershed is a highly developed watershed with limited
opportunities for stormwater treatment. The City has been in discussions with the
Riley-Purgatory-Bluff Creek Watershed District and the Lotus Lake Water
Quality Organization to identify suitable areas for alternative stormwater best
management practices. Much of the soils within the corridor are clay soils with
limited infiltration opportunities and a shallow water table. However, some
suitable sites may exist within the corridor and the opportunities outside of the
corridor are being assessed. The Lotus Lake Water Quality Organization has
expressed a willingness to contact property owners to seek volunteers to allow for
the construction of alternative stormwater treatment measures on their property.
Bluff Creek Ravine #2 Stabilization Proiect
In 1997 Barr Engineering, on behalf of RPBCWD performed an inventory and
feasibility study for addressing erosion within the Bluff Creek Watershed. This
inventory was updated in 2007. Based upon this inventory, 22 moderate to severe
erosion sites were identified. The Minnesota Department of Transportation has
re-routed stormwater runoff which was previously directed into Ravine #2
through stormsewer pipe down the hill. MN/DOT is looking to stabilize the
easterly branch of this ravine. Staff has been in contact with those land owners
immediately adjacent to the ravine and has received positive feedback for
stabilizing this ravine. HTPO has performed a topographic survey of the ravine
and this data, couple with soils data, will be used to design a stabilization plan.
Curry Farms Creek Channel Stabilization and Christmas Lake Delta Clean
Out
A portion of the channel which flows into Christmas Lake was stabilized in 1996.
The last 800 feet prior to discharging into Christmas Lake remains to be stabilized
and the delta which has formed in Christmas Lake needs to be dredged. In 2005,
City staff attempted to negotiate easements with the property owners but one
adjacent property owner was opposed to the project. That property has since
changed ownership and staff has begun contacting property owners and hopes to
negotiate easements and permits throughout the summer in time for construction
g:\eng\terry\npdes phase ii\nondeg\cc_012808_swmp projects.doc
Paul Oehme
SWMP Projects Update
January 28, 2008
Page 3 of 6
in the fall of 2008. It may be possible to partner with Minnehaha Creek
Watershed District on this project. Staff will continue to explore these
opportunities
Landin2:8 Court Stormwater Pond Improvement
The existing pond is not adequately sized to handle all upstream stormwater
inputs. HTPO prepared a limited scope feasibility study and recommended
several options. These recommendations included purchasing a lot to construct an
additional pond and/or changing the outlet elevation of the existing ponds and
increase the water fluctuation within the pond. Staff is evaluating the proposed
options and deciding how best to proceed.
Lake Susan Shoreline Restoration Proiect
The City was approached by Mr. Ken Wencl requesting that the shoreline along
Lake Susan near the Lake Susan Apartments be addressed. Wenck Engineering
and Kestrel Design Group were hired to evaluate the erosion issues along Lake
Susan. There findings indicate that the erosion ranks as a 2 on a 10 point scale
but they do indicate that the erosion will continue to get worse over time. They
have developed conceptual plans to address the erosion. The city has budgeted
$51,000 in the CIP. Engineer estimates range from $130,660 to $174,210. The
City is currently negotiating with the Watershed District for some type of cost
share for the project. The Waterhsed is proposing that they pick up much of the
City's costs within the Lotus Lake Watershed as part of their Lotus Lake Water
Quality Improvement Project and that these realized saving be applied to Lake
Susan.
Pervious Pavement Demonstration Proiect
They City will be constructing Well #13 on a City owned parcel of land south of
Lake Drive East. This land is part of the Chanhassen Park system but has limited
access and no parking. In order to accommodate access and parking, Parks
requested a parking lot be constructed with the well project. To take advantage of
the opportunity and provide some quantitative data as to the efficacy and
maintenance considerations for pervious pavement, the construction of a pervious
pavement parking lot is being explored. This parking lot will likely go in after the
well has been constructed but prior due diligence will be needed to assure that
adequate space is preserved to maintain required setbacks and grade is set to
allow for parking to be constructed. Staff is exploring grant opportunities through
various organizations.
g:\eng\terry\npdes phase ii\nondeg\cc_012808_swmp projects.doc
Paul Oehme
SWMP Projects Update
January 28, 2008
Page 4 of 6
AWAITING OPORTUNITY
Wetland Restoration at NE Corner of W. 78th Street and Galpin
Bluff Creek is a known impaired water and his been identified as a priority water
in the Surface Water Management Plan. Wetlands are known to reduce volume
which will help control erosion within Bluff Creek. This area was historically
wetland but much of it is non-jurisdictional under the Wetland Conservation Act
due to prior exemptions. By restoring wetland in this area to original conditions,
volume reduction within the Bluff Creek Watershed can be realized. Further, it
may be possible to deposit new wetland credits into the Minnesota Wetland Bank
which may be used by the City at a later time if needed.
Frontier Trail Association and Sunrise Hills Association
These properties have been identified as potential sites for rate control, water
quality treatment and possible volume reduction within the Lotus lake Watershed.
As part of the Laredo Reconstruction project, the Lotus Lake Water Quality
Organization has expressed a willingness to contact these associations to
determine their willingness to consider allowing for the construction of some
stormwater BMPs on their property. The Riley Purgatory Bluff Creek Watershed
District has likewise expressed an interest in working with these property owners
and possibly having their consulting engineer look at potential designs.
Further Stabilization Within the Bluff Creek Corridor
The City of Chanhassen and the Minnesota Pollution Control Agency have begun
a Total Maximum Daily Load (TMDL) study for Bluff Creek. Upon completion
of this study, the City will be able to apply for Clean Water Legacy Act grant
monies to address the other erosion issues within the corridor. In addition, other
opportunities will become viable as land within the corridor is developed or
redeveloped.
BEING COMPLETED BY OTHERS
Carp Mana2;ement
Dr. Peter Sorrenson of the University of Minnesota is performing a carp control
study on Lake Susan, Rice Marsh Lake and Lake Riley. The Riley-Purgatory-
g:\eng\terry\npdes phase ii\nondeg\cc_012808_swmp projects.doc
Paul Oehme
SWMP Projects Update
January 28,2008
Page 5 of 6
Bluff Creek Watershed District is partnering with Dr. Sorrenson and several other
agencies to offer technical and financial assistance to the project.
Lotus Lake Water Quality Improvement Proiect
The Riley-Purgatory-Bluff Creek Watershed District has included a ten year plan
to improve the water quality of Lotus Lake and to address water levels within the
Lake. The first step in this project is to build and calibrate a detailed XPSWM
hydrologic and hydraulic model of the entire watershed. The City of Chanhassen
has shared all pertinent data with the watershed to assist them in the construction
of the model.
Lake Riley Outlet Study
The Riley-Purgatory-Bluff Creek Watershed District has begun preliminary
design and planning for the outlet project. The watershed plans to construct the
outlet structure during the late summer of 2008.
OTHER NON-CAPITAL PROJECTS
Bluff Creek TMDL Study
The MPCA and the City of Chanhassen are working with Barr Engineering to
perform the TMDL study for Bluff Creek. The MPCA is paying for the study.
The role of the City will be to coordinate public outreach and communication and
to facilitate neighborhood and stakeholder meetings. Upon completion of the
TMDL study the City will be eligible for Clean Water Legacy Act funds.
Stormwater O&M Database
Staff is currently developing an Access database which will be GIS compatible
for the inventory of stormwater infrastructure maintenance and operation. This is
in compliance with the National Pollution Discharge Elimination System permit
under which Chanhassen is permitted.
National Pollution Discharge Elimination System Annual Report (NPDES)
Staff has begun data collection for the compilation of the 2007 NPDES annual
report. This report will include an update of all best management practices
outlined in our Stormwater Pollution Prevention Plan (SWPPP) and will be
submitted to the MPCA by May 31,2008.
Non-Degradation Analysis and SWPPP Revisions
g:\eng\terry\npdes phase ii\nondeg\cc_012808_swmp projects.doc
Paul Oehme
SWMP Projects Update
January 28,2008
Page 6 of 6
Wenck Associates has completed the City's Non-Degradation Plan which is on
tonight's workshop agenda. This report was due to the PCA by February 1,2008
but an extension was requested to February 12, 2008. Upon submittal of this plan
to the PCA and subsequent approval, staff will begin looking at SWPPP revisions
to meet the non-degradation requirements.
RECOMMENDA TION
This is informational only. Staff is making no recommendation at this time.
ATTACHMENTS
1. Map of active and proposed Surface Water Management Projects
g:\eng\terry\npdes phase ii\nondeg\cc_01280Lswmp projects.doc
D
City of
Chanhassen
2008 SWMP Projects
_ 2008 Active SWMP Projects
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